/* HOW TO COMPILE: * 32bit build: gcc -Winline -Wall -g -O -mregnames -maltivec * 64bit build: gcc -Winline -Wall -g -O -mregnames -maltivec -m64 This program is useful, but the register usage conventions in it are a complete dog. In particular, _patch_op_imm has to be inlined, else you wind up with it segfaulting in completely different places due to corruption (of r20 in the case I chased). */ /* * test-ppc.c: * PPC tests for qemu-PPC CPU emulation checks * * Copyright (c) 2005 Jocelyn Mayer * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License V2 * as published by the Free Software Foundation * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ /* * Theory of operations: * a few registers are reserved for the test program: * r14 => r18 * f14 => f18 * I do preload test values in r14 thru r17 (or less, depending on the number * of register operands needed), patch the test opcode if any immediate * operands are required, execute the tested opcode. * XER, CCR and FPSCR are cleared before every test. * I always get the result in r17 and also save XER and CCR for fixed-point * operations. I also check FPSCR for floating points operations. * * Improvements: * a more clever FPSCR management is needed: for now, I always test * the round-to-zero case. Other rounding modes also need to be tested. */ /* * Operation details * ----------------- * The 'test' functions (via all_tests[]) are wrappers of single asm instns * * The 'loops' (e.g. int_loops) do the actual work: * - loops over as many arguments as the instn needs (regs | imms) * - sets up the environment (reset cr,xer, assign src regs...) * - maybe modifies the asm instn to test different imm args * - calls the test function * - retrieves relevant register data (rD,cr,xer,...) * - prints argument and result data. * * More specifically... * * all_tests[i] holds insn tests * - of which each holds: {instn_test_arr[], description, flags} * * flags hold 3 instn classifiers: {family, type, arg_type} * * // The main test loop: * do_tests( user_ctl_flags ) { * foreach(curr_test = all_test[i]) { * * // flags are used to control what tests are run: * if (curr_test->flags && !user_ctl_flags) * continue; * * // a 'loop_family_arr' is chosen based on the 'family' flag... * switch(curr_test->flags->family) { * case x: loop_family_arr = int_loops; * ... * } * * // ...and the actual test_loop to run is found by indexing into * // the loop_family_arr with the 'arg_type' flag: * test_loop = loop_family[curr_test->flags->arg_type] * * // finally, loop over all instn tests for this test: * foreach (instn_test = curr_test->instn_test_arr[i]) { * * // and call the test_loop with the current instn_test function,name * test_loop( instn_test->func, instn_test->name ) * } * } * } * * * Details of instruction patching for immediate operands * ----------------------------------------------------- * All the immediate insn test functions are of the form {imm_insn, blr} * In order to patch one of these functions, we simply copy both insns * to a stack buffer, and rewrite the immediate part of imm_insn. * We then execute our stack buffer. * All ppc instructions are 32bits wide, which makes this fairly easy. * * Example: * extern void test_addi (void); * asm(".section \".text\"\n" * " .align 2\n" * " .type test_addi,@function\n" * "test_addi:\n" * " addi\n" * " blr\n" * " .previous\n" * ); * * We are interested only in: * " addi 17, 14, 0\n" * " blr\n" * * In a loop test, we may see: * uint32_t func_buf[2]; // our new stack based 'function' * for imm... // loop over imm * init_function( &func, func_buf ); // copy insns, set func ptr * patch_op_imm16(&func_buf[0], imm); // patch 'addi' insn * ... * (*func)(); // exec our rewritten code * * patch_op_imm16() itself simply takes the uint32_t insn and overwrites * the immediate field with the new value (which, for 'addi', is the * low 16 bits). * * So in the loop test, if 'imm' is currently 9, and p[0] is: * 0x3A2E0000 => addi 17, 14, 0 * * after patch_op_imm16(), func_buf[0] becomes: * 0x3A2E0009 => addi 17, 14, 9 * * Note: init_function() needs to be called on every iteration * - don't ask me why! */ /**********************************************************************/ /* Uncomment to enable many arguments for altivec insns */ #define USAGE_SIMPLE /* Uncomment to enable many arguments for altivec insns */ //#define ALTIVEC_ARGS_LARGE /* Uncomment to enable output of CR flags for float tests */ //#define TEST_FLOAT_FLAGS /* Uncomment to enable debug output */ //#define DEBUG_ARGS_BUILD //#define DEBUG_FILTER /* These should be set at build time */ //#define NO_FLOAT //#define HAS_ALTIVEC // CFLAGS += -maltivec //#define IS_PPC405 /**********************************************************************/ #include #include "tests/sys_mman.h" #include "tests/malloc.h" // memalign16 #include "./opcodes.h" #define STATIC_ASSERT(e) sizeof(struct { int:-!(e); }) /* Something of the same size as void*, so can be safely be coerced * to/from a pointer type. Also same size as the host's gp registers. * According to the AltiVec section of the GCC manual, the syntax does * not allow the use of a typedef name as a type specifier in conjunction * with the vector keyword, so typedefs uint[32|64]_t are #undef'ed here * and redefined using #define. */ #undef uint32_t #undef uint64_t #define uint32_t unsigned int #define uint64_t unsigned long long int #ifndef __powerpc64__ typedef uint32_t HWord_t; #else typedef uint64_t HWord_t; #endif /* __powerpc64__ */ enum { compile_time_test1 = STATIC_ASSERT(sizeof(uint32_t) == 4), compile_time_test2 = STATIC_ASSERT(sizeof(uint64_t) == 8), }; #define ALLCR "cr0","cr1","cr2","cr3","cr4","cr5","cr6","cr7" #define SET_CR(_arg) \ __asm__ __volatile__ ("mtcr %0" : : "b"(_arg) : ALLCR ); #define SET_XER(_arg) \ __asm__ __volatile__ ("mtxer %0" : : "b"(_arg) : "xer" ); #define GET_CR(_lval) \ __asm__ __volatile__ ("mfcr %0" : "=b"(_lval) ) #define GET_XER(_lval) \ __asm__ __volatile__ ("mfxer %0" : "=b"(_lval) ) #define GET_CR_XER(_lval_cr,_lval_xer) \ do { GET_CR(_lval_cr); GET_XER(_lval_xer); } while (0) #define SET_CR_ZERO \ SET_CR(0) #define SET_XER_ZERO \ SET_XER(0) #define SET_CR_XER_ZERO \ do { SET_CR_ZERO; SET_XER_ZERO; } while (0) #define SET_FPSCR_ZERO \ do { double _d = 0.0; \ __asm__ __volatile__ ("mtfsf 0xFF, %0" : : "f"(_d) ); \ } while (0) /* XXXX these must all be callee-save regs! */ register double f14 __asm__ ("fr14"); register double f15 __asm__ ("fr15"); register double f16 __asm__ ("fr16"); register double f17 __asm__ ("fr17"); register HWord_t r14 __asm__ ("r14"); register HWord_t r15 __asm__ ("r15"); register HWord_t r16 __asm__ ("r16"); register HWord_t r17 __asm__ ("r17"); #include "config.h" // HAS_ALTIVEC #if defined (HAS_ALTIVEC) # include #endif #include #include // isspace #include #include #include #include // getopt #ifndef __powerpc64__ #define ASSEMBLY_FUNC(__fname, __insn) \ asm(".section \".text\"\n" \ "\t.align 2\n" \ "\t.type "__fname",@function\n" \ __fname":\n" \ "\t"__insn"\n" \ "\tblr\n" \ "\t.previous\n" \ ) #else #if defined(VGP_ppc64be_linux) #define ASSEMBLY_FUNC(__fname, __insn) \ asm(".section \".text\"\n" \ "\t.align 2\n" \ "\t.global "__fname"\n" \ "\t.section \".opd\",\"aw\"\n" \ "\t.align 3\n" \ ""__fname":\n" \ "\t.quad ."__fname",.TOC.@tocbase,0\n" \ "\t.previous\n" \ "\t.type ."__fname",@function\n" \ "\t.global ."__fname"\n" \ "."__fname":\n" \ "\t"__insn"\n" \ "\tblr\n" \ ) #elif defined(VGP_ppc64le_linux) #define ASSEMBLY_FUNC(__fname, __insn) \ asm(".section \".text\"\n" \ "\t.align 2\n" \ "\t.global "__fname"\n" \ ""__fname":\n" \ "\t"__insn"\n" \ "\tblr\n" \ ) #endif // VGP_ppc64 or VGP_ppc64le #endif // #ifndef __powerpc64__ /* Return a pointer to a 1-page area where is is safe to both write and execute instructions. Area is filled with 'trap' insns. */ static uint32_t* get_rwx_area ( void ) { int i; static uint32_t* p = NULL; if (p == NULL) { p = mmap(NULL, 4096, PROT_READ|PROT_WRITE|PROT_EXEC, MAP_PRIVATE|MAP_ANONYMOUS, -1, 0); assert(p != MAP_FAILED); } for (i = 0; i < 4096/sizeof(uint32_t); i++) p[i] = 0x7fe00008; /* trap */ return p; } /* -------------- BEGIN #include "test-ppc.h" -------------- */ /* * test-ppc.h: * PPC tests for qemu-PPC CPU emulation checks - definitions * * Copyright (c) 2005 Jocelyn Mayer * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License V2 * as published by the Free Software Foundation * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #if !defined (__TEST_PPC_H__) #define __TEST_PPC_H__ #include typedef void (*test_func_t) (void); typedef struct test_t test_t; typedef struct test_table_t test_table_t; struct test_t { test_func_t func; const char *name; }; struct test_table_t { test_t *tests; const char *name; uint32_t flags; }; typedef void (*test_loop_t) (const char *name, test_func_t func, uint32_t flags); enum test_flags { /* Nb arguments */ PPC_ONE_ARG = 0x00000001, PPC_TWO_ARGS = 0x00000002, PPC_THREE_ARGS = 0x00000003, PPC_CMP_ARGS = 0x00000004, // family: compare PPC_CMPI_ARGS = 0x00000005, // family: compare PPC_TWO_I16 = 0x00000006, // family: arith/logical PPC_SPECIAL = 0x00000007, // family: logical PPC_LD_ARGS = 0x00000008, // family: ldst PPC_LDX_ARGS = 0x00000009, // family: ldst PPC_ST_ARGS = 0x0000000A, // family: ldst PPC_STX_ARGS = 0x0000000B, // family: ldst PPC_ONE_IMM = 0x0000000C, // PPC_MISC family PPC_NB_ARGS = 0x0000000F, /* Type */ PPC_ARITH = 0x00000100, PPC_LOGICAL = 0x00000200, PPC_COMPARE = 0x00000300, PPC_CROP = 0x00000400, PPC_LDST = 0x00000500, PPC_POPCNT = 0x00000600, PPC_ANY = 0x00000700, PPC_TYPE = 0x00000F00, /* Family */ PPC_INTEGER = 0x00010000, PPC_FLOAT = 0x00020000, PPC_405 = 0x00030000, PPC_ALTIVEC = 0x00040000, PPC_FALTIVEC = 0x00050000, PPC_MISC = 0x00060000, PPC_FAMILY = 0x000F0000, /* Flags: these may be combined, so use separate bitfields. */ PPC_CR = 0x01000000, PPC_XER_CA = 0x02000000, }; #endif /* !defined (__TEST_PPC_H__) */ /* -------------- END #include "test-ppc.h" -------------- */ #if defined (DEBUG_ARGS_BUILD) #define AB_DPRINTF(fmt, args...) do { fprintf(stderr, fmt , ##args); } while (0) #else #define AB_DPRINTF(fmt, args...) do { } while (0) #endif #if defined (DEBUG_FILTER) #define FDPRINTF(fmt, args...) do { fprintf(stderr, fmt , ##args); } while (0) #else #define FDPRINTF(fmt, args...) do { } while (0) #endif /* Produce the 64-bit pattern corresponding to the supplied double. */ static uint64_t double_to_bits ( double d ) { union { uint64_t i; double d; } u; assert(8 == sizeof(uint64_t)); assert(8 == sizeof(double)); assert(8 == sizeof(u)); u.d = d; return u.i; } #if 0 static float bits_to_float ( uint32_t i ) { union { uint32_t i; float f; } u; assert(4 == sizeof(uint32_t)); assert(4 == sizeof(float)); assert(4 == sizeof(u)); u.i = i; return u.f; } #endif #if defined (HAS_ALTIVEC) static void AB_DPRINTF_VEC32x4 ( vector unsigned int v ) { #if defined (DEBUG_ARGS_BUILD) int i; unsigned int* p_int = (unsigned int*)&v; AB_DPRINTF("val"); for (i=0; i<4; i++) { AB_DPRINTF(" %08x", p_int[i]); } AB_DPRINTF("\n"); #endif } #endif #define unused __attribute__ (( unused )) /* -------------- BEGIN #include "ops-ppc.c" -------------- */ /* #include "test-ppc.h" */ static void test_add (void) { __asm__ __volatile__ ("add 17, 14, 15"); } static void test_addo (void) { __asm__ __volatile__ ("addo 17, 14, 15"); } static void test_addc (void) { __asm__ __volatile__ ("addc 17, 14, 15"); } static void test_addco (void) { __asm__ __volatile__ ("addco 17, 14, 15"); } static void test_divw (void) { __asm__ __volatile__ ("divw 17, 14, 15"); } static void test_divwo (void) { __asm__ __volatile__ ("divwo 17, 14, 15"); } static void test_divwu (void) { __asm__ __volatile__ ("divwu 17, 14, 15"); } static void test_divwuo (void) { __asm__ __volatile__ ("divwuo 17, 14, 15"); } static void test_mulhw (void) { __asm__ __volatile__ ("mulhw 17, 14, 15"); } static void test_mulhwu (void) { __asm__ __volatile__ ("mulhwu 17, 14, 15"); } static void test_mullw (void) { __asm__ __volatile__ ("mullw 17, 14, 15"); } static void test_mullwo (void) { __asm__ __volatile__ ("mullwo 17, 14, 15"); } static void test_subf (void) { __asm__ __volatile__ ("subf 17, 14, 15"); } static void test_subfo (void) { __asm__ __volatile__ ("subfo 17, 14, 15"); } static void test_subfc (void) { __asm__ __volatile__ ("subfc 17, 14, 15"); } static void test_subfco (void) { __asm__ __volatile__ ("subfco 17, 14, 15"); } #ifdef __powerpc64__ static void test_mulld (void) { __asm__ __volatile__ ("mulld 17, 14, 15"); } static void test_mulldo (void) { __asm__ __volatile__ ("mulldo 17, 14, 15"); } static void test_mulhd (void) { __asm__ __volatile__ ("mulhd 17, 14, 15"); } static void test_mulhdu (void) { __asm__ __volatile__ ("mulhdu 17, 14, 15"); } static void test_divd (void) { __asm__ __volatile__ ("divd 17, 14, 15"); } static void test_divdu (void) { __asm__ __volatile__ ("divdu 17, 14, 15"); } static void test_divdo (void) { __asm__ __volatile__ ("divdo 17, 14, 15"); } static void test_divduo (void) { __asm__ __volatile__ ("divduo 17, 14, 15"); } #endif // #ifdef __powerpc64__ static test_t tests_ia_ops_two[] = { { &test_add , " add", }, { &test_addo , " addo", }, { &test_addc , " addc", }, { &test_addco , " addco", }, { &test_divw , " divw", }, { &test_divwo , " divwo", }, { &test_divwu , " divwu", }, { &test_divwuo , " divwuo", }, { &test_mulhw , " mulhw", }, { &test_mulhwu , " mulhwu", }, { &test_mullw , " mullw", }, { &test_mullwo , " mullwo", }, { &test_subf , " subf", }, { &test_subfo , " subfo", }, { &test_subfc , " subfc", }, { &test_subfco , " subfco", }, #ifdef __powerpc64__ { &test_mulhd , " mulhd", }, { &test_mulhdu , " mulhdu", }, { &test_mulld , " mulld", }, { &test_mulldo , " mulldo", }, { &test_divd , " divd", }, { &test_divdu , " divdu", }, { &test_divdo , " divdo", }, { &test_divduo , " divduo", }, #endif // #ifdef __powerpc64__ { NULL, NULL, }, }; static void test_add_ (void) { __asm__ __volatile__ ("add. 17, 14, 15"); } static void test_addo_ (void) { __asm__ __volatile__ ("addo. 17, 14, 15"); } static void test_addc_ (void) { __asm__ __volatile__ ("addc. 17, 14, 15"); } static void test_addco_ (void) { __asm__ __volatile__ ("addco. 17, 14, 15"); } static void test_divw_ (void) { __asm__ __volatile__ ("divw. 17, 14, 15"); } static void test_divwo_ (void) { __asm__ __volatile__ ("divwo. 17, 14, 15"); } static void test_divwu_ (void) { __asm__ __volatile__ ("divwu. 17, 14, 15"); } static void test_divwuo_ (void) { __asm__ __volatile__ ("divwuo. 17, 14, 15"); } static void test_mulhw_ (void) { __asm__ __volatile__ ("mulhw. 17, 14, 15"); } static void test_mulhwu_ (void) { __asm__ __volatile__ ("mulhwu. 17, 14, 15"); } static void test_mullw_ (void) { __asm__ __volatile__ ("mullw. 17, 14, 15"); } static void test_mullwo_ (void) { __asm__ __volatile__ ("mullwo. 17, 14, 15"); } static void test_subf_ (void) { __asm__ __volatile__ ("subf. 17, 14, 15"); } static void test_subfo_ (void) { __asm__ __volatile__ ("subfo. 17, 14, 15"); } static void test_subfc_ (void) { __asm__ __volatile__ ("subfc. 17, 14, 15"); } static void test_subfco_ (void) { __asm__ __volatile__ ("subfco. 17, 14, 15"); } #ifdef __powerpc64__ static void test_mulhd_ (void) { __asm__ __volatile__ ("mulhd. 17, 14, 15"); } static void test_mulhdu_ (void) { __asm__ __volatile__ ("mulhdu. 17, 14, 15"); } static void test_mulld_ (void) { __asm__ __volatile__ ("mulld. 17, 14, 15"); } static void test_mulldo_ (void) { __asm__ __volatile__ ("mulldo. 17, 14, 15"); } static void test_divd_ (void) { __asm__ __volatile__ ("divd. 17, 14, 15"); } static void test_divdu_ (void) { __asm__ __volatile__ ("divdu. 17, 14, 15"); } static void test_divdo_ (void) { __asm__ __volatile__ ("divdo. 17, 14, 15"); } static void test_divduo_ (void) { __asm__ __volatile__ ("divduo. 17, 14, 15"); } #endif // #ifdef __powerpc64__ static test_t tests_iar_ops_two[] = { { &test_add_ , " add.", }, { &test_addo_ , " addo.", }, { &test_addc_ , " addc.", }, { &test_addco_ , " addco.", }, { &test_divw_ , " divw.", }, { &test_divwo_ , " divwo.", }, { &test_divwu_ , " divwu.", }, { &test_divwuo_ , " divwuo.", }, { &test_mulhw_ , " mulhw.", }, { &test_mulhwu_ , " mulhwu.", }, { &test_mullw_ , " mullw.", }, { &test_mullwo_ , " mullwo.", }, { &test_subf_ , " subf.", }, { &test_subfo_ , " subfo.", }, { &test_subfc_ , " subfc.", }, { &test_subfco_ , " subfco.", }, #ifdef __powerpc64__ { &test_mulhd_ , " mulhd.", }, { &test_mulhdu_ , " mulhdu.", }, { &test_mulld_ , " mulld.", }, { &test_mulldo_ , " mulldo.", }, { &test_divd_ , " divd.", }, { &test_divdu_ , " divdu.", }, { &test_divdo_ , " divdo.", }, { &test_divduo_ , " divduo.", }, #endif // #ifdef __powerpc64__ { NULL, NULL, }, }; static void test_adde (void) { __asm__ __volatile__ ("adde 17, 14, 15"); } static void test_addeo (void) { __asm__ __volatile__ ("addeo 17, 14, 15"); } static void test_subfe (void) { __asm__ __volatile__ ("subfe 17, 14, 15"); } static void test_subfeo (void) { __asm__ __volatile__ ("subfeo 17, 14, 15"); } static test_t tests_iac_ops_two[] = { { &test_adde , " adde", }, { &test_addeo , " addeo", }, { &test_subfe , " subfe", }, { &test_subfeo , " subfeo", }, { NULL, NULL, }, }; static void test_adde_ (void) { __asm__ __volatile__ ("adde. 17, 14, 15"); } static void test_addeo_ (void) { __asm__ __volatile__ ("addeo. 17, 14, 15"); } static void test_subfe_ (void) { __asm__ __volatile__ ("subfe. 17, 14, 15"); } static void test_subfeo_ (void) { __asm__ __volatile__ ("subfeo. 17, 14, 15"); } static test_t tests_iacr_ops_two[] = { { &test_adde_ , " adde.", }, { &test_addeo_ , " addeo.", }, { &test_subfe_ , " subfe.", }, { &test_subfeo_ , " subfeo.", }, { NULL, NULL, }, }; static void test_and (void) { __asm__ __volatile__ ("and 17, 14, 15"); } static void test_andc (void) { __asm__ __volatile__ ("andc 17, 14, 15"); } static void test_eqv (void) { __asm__ __volatile__ ("eqv 17, 14, 15"); } static void test_nand (void) { __asm__ __volatile__ ("nand 17, 14, 15"); } static void test_nor (void) { __asm__ __volatile__ ("nor 17, 14, 15"); } static void test_or (void) { __asm__ __volatile__ ("or 17, 14, 15"); } static void test_orc (void) { __asm__ __volatile__ ("orc 17, 14, 15"); } static void test_xor (void) { __asm__ __volatile__ ("xor 17, 14, 15"); } static void test_slw (void) { __asm__ __volatile__ ("slw 17, 14, 15"); } static void test_sraw (void) { __asm__ __volatile__ ("sraw 17, 14, 15"); } static void test_srw (void) { __asm__ __volatile__ ("srw 17, 14, 15"); } #ifdef __powerpc64__ static void test_sld (void) { __asm__ __volatile__ ("sld 17, 14, 15"); } static void test_srad (void) { __asm__ __volatile__ ("srad 17, 14, 15"); } static void test_srd (void) { __asm__ __volatile__ ("srd 17, 14, 15"); } #endif // #ifdef __powerpc64__ static test_t tests_il_ops_two[] = { { &test_and , " and", }, { &test_andc , " andc", }, { &test_eqv , " eqv", }, { &test_nand , " nand", }, { &test_nor , " nor", }, { &test_or , " or", }, { &test_orc , " orc", }, { &test_xor , " xor", }, { &test_slw , " slw", }, { &test_sraw , " sraw", }, { &test_srw , " srw", }, #ifdef __powerpc64__ { &test_sld , " sld", }, { &test_srad , " srad", }, { &test_srd , " srd", }, #endif // #ifdef __powerpc64__ { NULL, NULL, }, }; static void test_and_ (void) { __asm__ __volatile__ ("and. 17, 14, 15"); } static void test_andc_ (void) { __asm__ __volatile__ ("andc. 17, 14, 15"); } static void test_eqv_ (void) { __asm__ __volatile__ ("eqv. 17, 14, 15"); } static void test_nand_ (void) { __asm__ __volatile__ ("nand. 17, 14, 15"); } static void test_nor_ (void) { __asm__ __volatile__ ("nor. 17, 14, 15"); } static void test_or_ (void) { __asm__ __volatile__ ("or. 17, 14, 15"); } static void test_orc_ (void) { __asm__ __volatile__ ("orc. 17, 14, 15"); } static void test_xor_ (void) { __asm__ __volatile__ ("xor. 17, 14, 15"); } static void test_slw_ (void) { __asm__ __volatile__ ("slw. 17, 14, 15"); } static void test_sraw_ (void) { __asm__ __volatile__ ("sraw. 17, 14, 15"); } static void test_srw_ (void) { __asm__ __volatile__ ("srw. 17, 14, 15"); } #ifdef __powerpc64__ static void test_sld_ (void) { __asm__ __volatile__ ("sld. 17, 14, 15"); } static void test_srad_ (void) { __asm__ __volatile__ ("srad. 17, 14, 15"); } static void test_srd_ (void) { __asm__ __volatile__ ("srd. 17, 14, 15"); } #endif // #ifdef __powerpc64__ static test_t tests_ilr_ops_two[] = { { &test_and_ , " and.", }, { &test_andc_ , " andc.", }, { &test_eqv_ , " eqv.", }, { &test_nand_ , " nand.", }, { &test_nor_ , " nor.", }, { &test_or_ , " or.", }, { &test_orc_ , " orc.", }, { &test_xor_ , " xor.", }, { &test_slw_ , " slw.", }, { &test_sraw_ , " sraw.", }, { &test_srw_ , " srw.", }, #ifdef __powerpc64__ { &test_sld_ , " sld.", }, { &test_srad_ , " srad.", }, { &test_srd_ , " srd.", }, #endif // #ifdef __powerpc64__ { NULL, NULL, }, }; static void test_cmpw (void) { __asm__ __volatile__ ("cmpw 2, 14, 15"); } static void test_cmplw (void) { __asm__ __volatile__ ("cmplw 2, 14, 15"); } #ifdef __powerpc64__ static void test_cmpd (void) { __asm__ __volatile__ ("cmpd 2, 14, 15"); } static void test_cmpld (void) { __asm__ __volatile__ ("cmpld 2, 14, 15"); } #endif // #ifdef __powerpc64__ static test_t tests_icr_ops_two[] = { { &test_cmpw , " cmpw", }, { &test_cmplw , " cmplw", }, #ifdef __powerpc64__ { &test_cmpd , " cmpd", }, { &test_cmpld , " cmpld", }, #endif // #ifdef __powerpc64__ { NULL, NULL, }, }; extern void test_cmpwi (void); ASSEMBLY_FUNC("test_cmpwi", "cmpwi 2, 14, 0"); extern void test_cmplwi (void); ASSEMBLY_FUNC("test_cmplwi", "cmplwi 2, 14, 0"); #ifdef __powerpc64__ extern void test_cmpdi (void); ASSEMBLY_FUNC("test_cmpdi", "cmpdi 2, 14, 0"); extern void test_cmpldi (void); ASSEMBLY_FUNC("test_cmpldi", "cmpldi 2, 14, 0"); #endif // #ifdef __powerpc64__ static test_t tests_icr_ops_two_i16[] = { { &test_cmpwi , " cmpwi", }, { &test_cmplwi , " cmplwi", }, #ifdef __powerpc64__ { &test_cmpdi , " cmpdi", }, { &test_cmpldi , " cmpldi", }, #endif // #ifdef __powerpc64__ { NULL, NULL, }, }; extern void test_addi (void); ASSEMBLY_FUNC("test_addi", "addi 17, 14, 0"); extern void test_addic (void); ASSEMBLY_FUNC("test_addic", "addic 17, 14, 0"); extern void test_addis (void); ASSEMBLY_FUNC("test_addis", "addis 17, 14, 0"); extern void test_mulli (void); ASSEMBLY_FUNC("test_mulli", "mulli 17, 14, 0"); extern void test_subfic (void); ASSEMBLY_FUNC("test_subfic", "subfic 17, 14, 0"); static test_t tests_ia_ops_two_i16[] = { { &test_addi , " addi", }, { &test_addic , " addic", }, { &test_addis , " addis", }, { &test_mulli , " mulli", }, { &test_subfic , " subfic", }, { NULL, NULL, }, }; extern void test_addic_ (void); ASSEMBLY_FUNC("test_addic_", "addic. 17, 14, 0"); static test_t tests_iar_ops_two_i16[] = { { &test_addic_ , " addic.", }, { NULL, NULL, }, }; extern void test_ori (void); ASSEMBLY_FUNC("test_ori", "ori 17, 14, 0"); extern void test_oris (void); ASSEMBLY_FUNC("test_oris", "oris 17, 14, 0"); extern void test_xori (void); ASSEMBLY_FUNC("test_xori", "xori 17, 14, 0"); extern void test_xoris (void); ASSEMBLY_FUNC("test_xoris", "xoris 17, 14, 0"); static test_t tests_il_ops_two_i16[] = { { &test_ori , " ori", }, { &test_oris , " oris", }, { &test_xori , " xori", }, { &test_xoris , " xoris", }, { NULL, NULL, }, }; extern void test_andi_ (void); ASSEMBLY_FUNC("test_andi_", "andi. 17, 14, 0"); extern void test_andis_ (void); ASSEMBLY_FUNC("test_andis_", "andis. 17, 14, 0"); static test_t tests_ilr_ops_two_i16[] = { { &test_andi_ , " andi.", }, { &test_andis_ , " andis.", }, { NULL, NULL, }, }; static void test_crand (void) { __asm__ __volatile__ ("crand 17, 14, 15"); } static void test_crandc (void) { __asm__ __volatile__ ("crandc 17, 14, 15"); } static void test_creqv (void) { __asm__ __volatile__ ("creqv 17, 14, 15"); } static void test_crnand (void) { __asm__ __volatile__ ("crnand 17, 14, 15"); } static void test_crnor (void) { __asm__ __volatile__ ("crnor 17, 14, 15"); } static void test_cror (void) { __asm__ __volatile__ ("cror 17, 14, 15"); } static void test_crorc (void) { __asm__ __volatile__ ("crorc 17, 14, 15"); } static void test_crxor (void) { __asm__ __volatile__ ("crxor 17, 14, 15"); } static test_t tests_crl_ops_two[] = { { &test_crand , " crand", }, { &test_crandc , " crandc", }, { &test_creqv , " creqv", }, { &test_crnand , " crnand", }, { &test_crnor , " crnor", }, { &test_cror , " cror", }, { &test_crorc , " crorc", }, { &test_crxor , " crxor", }, { NULL, NULL, }, }; static void test_addme (void) { __asm__ __volatile__ ("addme 17, 14"); } static void test_addmeo (void) { __asm__ __volatile__ ("addmeo 17, 14"); } static void test_addze (void) { __asm__ __volatile__ ("addze 17, 14"); } static void test_addzeo (void) { __asm__ __volatile__ ("addzeo 17, 14"); } static void test_subfme (void) { __asm__ __volatile__ ("subfme 17, 14"); } static void test_subfmeo (void) { __asm__ __volatile__ ("subfmeo 17, 14"); } static void test_subfze (void) { __asm__ __volatile__ ("subfze 17, 14"); } static void test_subfzeo (void) { __asm__ __volatile__ ("subfzeo 17, 14"); } static test_t tests_iac_ops_one[] = { { &test_addme , " addme", }, { &test_addmeo , " addmeo", }, { &test_addze , " addze", }, { &test_addzeo , " addzeo", }, { &test_subfme , " subfme", }, { &test_subfmeo , " subfmeo", }, { &test_subfze , " subfze", }, { &test_subfzeo , " subfzeo", }, { NULL, NULL, }, }; static void test_addme_ (void) { __asm__ __volatile__ ("addme. 17, 14"); } static void test_addmeo_ (void) { __asm__ __volatile__ ("addmeo. 17, 14"); } static void test_addze_ (void) { __asm__ __volatile__ ("addze. 17, 14"); } static void test_addzeo_ (void) { __asm__ __volatile__ ("addzeo. 17, 14"); } static void test_subfme_ (void) { __asm__ __volatile__ ("subfme. 17, 14"); } static void test_subfmeo_ (void) { __asm__ __volatile__ ("subfmeo. 17, 14"); } static void test_subfze_ (void) { __asm__ __volatile__ ("subfze. 17, 14"); } static void test_subfzeo_ (void) { __asm__ __volatile__ ("subfzeo. 17, 14"); } static test_t tests_iacr_ops_one[] = { { &test_addme_ , " addme.", }, { &test_addmeo_ , " addmeo.", }, { &test_addze_ , " addze.", }, { &test_addzeo_ , " addzeo.", }, { &test_subfme_ , " subfme.", }, { &test_subfmeo_ , " subfmeo.", }, { &test_subfze_ , " subfze.", }, { &test_subfzeo_ , " subfzeo.", }, { NULL, NULL, }, }; static void test_cntlzw (void) { __asm__ __volatile__ ("cntlzw 17, 14"); } static void test_extsb (void) { __asm__ __volatile__ ("extsb 17, 14"); } static void test_extsh (void) { __asm__ __volatile__ ("extsh 17, 14"); } static void test_neg (void) { __asm__ __volatile__ ("neg 17, 14"); } static void test_nego (void) { __asm__ __volatile__ ("nego 17, 14"); } #ifdef __powerpc64__ static void test_cntlzd (void) { __asm__ __volatile__ ("cntlzd 17, 14"); } static void test_extsw (void) { __asm__ __volatile__ ("extsw 17, 14"); } #endif // #ifdef __powerpc64__ static test_t tests_il_ops_one[] = { { &test_cntlzw , " cntlzw", }, { &test_extsb , " extsb", }, { &test_extsh , " extsh", }, { &test_neg , " neg", }, { &test_nego , " nego", }, #ifdef __powerpc64__ { &test_cntlzd , " cntlzd", }, { &test_extsw , " extsw", }, #endif // #ifdef __powerpc64__ { NULL, NULL, }, }; static void test_cntlzw_ (void) { __asm__ __volatile__ ("cntlzw. 17, 14"); } static void test_extsb_ (void) { __asm__ __volatile__ ("extsb. 17, 14"); } static void test_extsh_ (void) { __asm__ __volatile__ ("extsh. 17, 14"); } static void test_neg_ (void) { __asm__ __volatile__ ("neg. 17, 14"); } static void test_nego_ (void) { __asm__ __volatile__ ("nego. 17, 14"); } #ifdef __powerpc64__ static void test_cntlzd_ (void) { __asm__ __volatile__ ("cntlzd. 17, 14"); } static void test_extsw_ (void) { __asm__ __volatile__ ("extsw. 17, 14"); } #endif // #ifdef __powerpc64__ static test_t tests_ilr_ops_one[] = { { &test_cntlzw_ , " cntlzw.", }, { &test_extsb_ , " extsb.", }, { &test_extsh_ , " extsh.", }, { &test_neg_ , " neg.", }, { &test_nego_ , " nego.", }, #ifdef __powerpc64__ { &test_cntlzd_ , " cntlzd.", }, { &test_extsw_ , " extsw.", }, #endif // #ifdef __powerpc64__ { NULL, NULL, }, }; extern void test_rlwimi (void); ASSEMBLY_FUNC("test_rlwimi", "rlwimi 17, 14, 0, 0, 0"); extern void test_rlwinm (void); ASSEMBLY_FUNC("test_rlwinm", "rlwinm 17, 14, 0, 0, 0"); extern void test_rlwnm (void); ASSEMBLY_FUNC("test_rlwnm", "rlwnm 17, 14, 15, 0, 0"); extern void test_srawi (void); ASSEMBLY_FUNC("test_srawi", "srawi 17, 14, 0"); static void test_mfcr (void) { __asm__ __volatile__ ("mfcr 17"); } static void test_mfspr (void) { __asm__ __volatile__ ("mfspr 17, 1"); } static void test_mtspr (void) { __asm__ __volatile__ ("mtspr 1, 14"); } #ifdef __powerpc64__ extern void test_rldcl (void); ASSEMBLY_FUNC("test_rldcl", "rldcl 17, 14, 15, 0"); extern void test_rldcr (void); ASSEMBLY_FUNC("test_rldcr", "rldcr 17, 14, 15, 0"); extern void test_rldic (void); ASSEMBLY_FUNC("test_rldic", "rldic 17, 14, 0, 0"); extern void test_rldicl (void); ASSEMBLY_FUNC("test_rldicl", "rldicl 17, 14, 0, 0"); extern void test_rldicr (void); ASSEMBLY_FUNC("test_rldicr", "rldicr 17, 14, 0, 0"); extern void test_rldimi (void); ASSEMBLY_FUNC("test_rldimi", "rldimi 17, 14, 0, 0"); extern void test_sradi (void); ASSEMBLY_FUNC("test_sradi", "sradi 17, 14, 0"); #endif // #ifdef __powerpc64__ static test_t tests_il_ops_spe[] = { { &test_rlwimi , " rlwimi", }, { &test_rlwinm , " rlwinm", }, { &test_rlwnm , " rlwnm", }, { &test_srawi , " srawi", }, { &test_mfcr , " mfcr", }, { &test_mfspr , " mfspr", }, { &test_mtspr , " mtspr", }, #ifdef __powerpc64__ { &test_rldcl , " rldcl", }, { &test_rldcr , " rldcr", }, { &test_rldic , " rldic", }, { &test_rldicl , " rldicl", }, { &test_rldicr , " rldicr", }, { &test_rldimi , " rldimi", }, { &test_sradi , " sradi", }, #endif // #ifdef __powerpc64__ { NULL, NULL, }, }; extern void test_rlwimi_ (void); ASSEMBLY_FUNC("test_rlwimi_", "rlwimi. 17, 14, 0, 0, 0"); extern void test_rlwinm_ (void); ASSEMBLY_FUNC("test_rlwinm_", "rlwinm. 17, 14, 0, 0, 0"); extern void test_rlwnm_ (void); ASSEMBLY_FUNC("test_rlwnm_", "rlwnm. 17, 14, 15, 0, 0"); extern void test_srawi_ (void); ASSEMBLY_FUNC("test_srawi_", "srawi. 17, 14, 0"); extern void test_mcrf (void); ASSEMBLY_FUNC("test_mcrf", "mcrf 0, 0"); extern void test_mcrxr (void); ASSEMBLY_FUNC("test_mcrxr", "mcrxr 0"); extern void test_mtcrf (void); ASSEMBLY_FUNC("test_mtcrf", "mtcrf 0, 14"); #ifdef __powerpc64__ extern void test_rldcl_ (void); ASSEMBLY_FUNC("test_rldcl_", "rldcl. 17, 14, 15, 0"); extern void test_rldcr_ (void); ASSEMBLY_FUNC("test_rldcr_", "rldcr. 17, 14, 15, 0"); extern void test_rldic_ (void); ASSEMBLY_FUNC("test_rldic_", "rldic. 17, 14, 0, 0"); extern void test_rldicl_ (void); ASSEMBLY_FUNC("test_rldicl_", "rldicl. 17, 14, 0, 0"); extern void test_rldicr_ (void); ASSEMBLY_FUNC("test_rldicr_", "rldicr. 17, 14, 0, 0"); extern void test_rldimi_ (void); ASSEMBLY_FUNC("test_rldimi_", "rldimi. 17, 14, 0, 0"); extern void test_sradi_ (void); ASSEMBLY_FUNC("test_sradi_", "sradi. 17, 14, 0"); #endif // #ifdef __powerpc64__ static test_t tests_ilr_ops_spe[] = { { &test_rlwimi_ , " rlwimi.", }, { &test_rlwinm_ , " rlwinm.", }, { &test_rlwnm_ , " rlwnm.", }, { &test_srawi_ , " srawi.", }, { &test_mcrf , " mcrf", }, { &test_mcrxr , " mcrxr", }, { &test_mtcrf , " mtcrf", }, #ifdef __powerpc64__ { &test_rldcl_ , " rldcl.", }, { &test_rldcr_ , " rldcr.", }, { &test_rldic_ , " rldic.", }, { &test_rldicl_ , " rldicl.", }, { &test_rldicr_ , " rldicr.", }, { &test_rldimi_ , " rldimi.", }, { &test_sradi_ , " sradi.", }, #endif // #ifdef __powerpc64__ { NULL, NULL, }, }; extern void test_lbz (void); ASSEMBLY_FUNC("test_lbz", "lbz 17,0(14)"); extern void test_lbzu (void); ASSEMBLY_FUNC("test_lbzu", "lbzu 17,0(14)"); extern void test_lha (void); ASSEMBLY_FUNC("test_lha", "lha 17,0(14)"); extern void test_lhau (void); ASSEMBLY_FUNC("test_lhau", "lhau 17,0(14)"); extern void test_lhz (void); ASSEMBLY_FUNC("test_lhz", "lhz 17,0(14)"); extern void test_lhzu (void); ASSEMBLY_FUNC("test_lhzu", "lhzu 17,0(14)"); extern void test_lwz (void); ASSEMBLY_FUNC("test_lwz", "lwz 17,0(14)"); extern void test_lwzu (void); ASSEMBLY_FUNC("test_lwzu", "lwzu 17,0(14)"); #ifdef __powerpc64__ extern void test_ld (void); ASSEMBLY_FUNC("test_ld", "ld 17,0(14)"); extern void test_ldu (void); ASSEMBLY_FUNC("test_ldu", "ldu 17,0(14)"); extern void test_lwa (void); ASSEMBLY_FUNC("test_lwa", "lwa 17,0(14)"); #endif // #ifdef __powerpc64__ static test_t tests_ild_ops_two_i16[] = { { &test_lbz , " lbz", }, { &test_lbzu , " lbzu", }, { &test_lha , " lha", }, { &test_lhau , " lhau", }, { &test_lhz , " lhz", }, { &test_lhzu , " lhzu", }, { &test_lwz , " lwz", }, { &test_lwzu , " lwzu", }, #ifdef __powerpc64__ { &test_ld , " ld", }, { &test_ldu , " ldu", }, { &test_lwa , " lwa", }, #endif // #ifdef __powerpc64__ { NULL, NULL, }, }; static void test_lbzx (void) { __asm__ __volatile__ ("lbzx 17,14,15"); } static void test_lbzux (void) { __asm__ __volatile__ ("lbzux 17,14,15"); } static void test_lhax (void) { __asm__ __volatile__ ("lhax 17,14,15"); } static void test_lhaux (void) { __asm__ __volatile__ ("lhaux 17,14,15"); } static void test_lhzx (void) { __asm__ __volatile__ ("lhzx 17,14,15"); } static void test_lhzux (void) { __asm__ __volatile__ ("lhzux 17,14,15"); } static void test_lwzx (void) { __asm__ __volatile__ ("lwzx 17,14,15"); } static void test_lwzux (void) { __asm__ __volatile__ ("lwzux 17,14,15"); } #ifdef __powerpc64__ static void test_ldx (void) { __asm__ __volatile__ ("ldx 17,14,15"); } static void test_ldux (void) { __asm__ __volatile__ ("ldux 17,14,15"); } static void test_lwax (void) { __asm__ __volatile__ ("lwax 17,14,15"); } static void test_lwaux (void) { __asm__ __volatile__ ("lwaux 17,14,15"); } #endif // #ifdef __powerpc64__ static test_t tests_ild_ops_two[] = { { &test_lbzx , " lbzx", }, { &test_lbzux , " lbzux", }, { &test_lhax , " lhax", }, { &test_lhaux , " lhaux", }, { &test_lhzx , " lhzx", }, { &test_lhzux , " lhzux", }, { &test_lwzx , " lwzx", }, { &test_lwzux , " lwzux", }, #ifdef __powerpc64__ { &test_ldx , " ldx", }, { &test_ldux , " ldux", }, { &test_lwax , " lwax", }, { &test_lwaux , " lwaux", }, #endif // #ifdef __powerpc64__ { NULL, NULL, }, }; extern void test_stb (void); ASSEMBLY_FUNC("test_stb", "stb 14,0(15)"); extern void test_stbu (void); ASSEMBLY_FUNC("test_stbu", "stbu 14,0(15)"); extern void test_sth (void); ASSEMBLY_FUNC("test_sth", "sth 14,0(15)"); extern void test_sthu (void); ASSEMBLY_FUNC("test_sthu", "sthu 14,0(15)"); extern void test_stw (void); ASSEMBLY_FUNC("test_stw", "stw 14,0(15)"); extern void test_stwu (void); ASSEMBLY_FUNC("test_stwu", "stwu 14,0(15)"); #ifdef __powerpc64__ extern void test_std (void); ASSEMBLY_FUNC("test_std", "std 14,0(15)"); extern void test_stdu (void); ASSEMBLY_FUNC("test_stdu", "stdu 14,0(15)"); #endif // #ifdef __powerpc64__ static test_t tests_ist_ops_three_i16[] = { { &test_stb , " stb", }, { &test_stbu , " stbu", }, { &test_sth , " sth", }, { &test_sthu , " sthu", }, { &test_stw , " stw", }, { &test_stwu , " stwu", }, #ifdef __powerpc64__ { &test_std , " std", }, { &test_stdu , " stdu", }, #endif // #ifdef __powerpc64__ { NULL, NULL, }, }; static void test_stbx (void) { __asm__ __volatile__ ("stbx 14,15,16"); } static void test_stbux (void) { __asm__ __volatile__ ("stbux 14,15,16"); } static void test_sthx (void) { __asm__ __volatile__ ("sthx 14,15,16"); } static void test_sthux (void) { __asm__ __volatile__ ("sthux 14,15,16"); } static void test_stwx (void) { __asm__ __volatile__ ("stwx 14,15,16"); } static void test_stwux (void) { __asm__ __volatile__ ("stwux 14,15,16"); } #ifdef __powerpc64__ static void test_stdx (void) { __asm__ __volatile__ ("stdx 14,15,16"); } static void test_stdux (void) { __asm__ __volatile__ ("stdux 14,15,16"); } #endif // #ifdef __powerpc64__ static test_t tests_ist_ops_three[] = { { &test_stbx , " stbx", }, { &test_stbux , " stbux", }, { &test_sthx , " sthx", }, { &test_sthux , " sthux", }, { &test_stwx , " stwx", }, { &test_stwux , " stwux", }, #ifdef __powerpc64__ { &test_stdx , " stdx", }, { &test_stdux , " stdux", }, #endif // #ifdef __powerpc64__ { NULL, NULL, }, }; static void tests_popcnt_one(void) { __asm__ __volatile__ ("popcntb 17, 14"); } static test_t tests_popcnt_ops_one[] = { { &tests_popcnt_one , " popcntb", }, { NULL, NULL, }, }; #if !defined (NO_FLOAT) static void test_fsel (void) { __asm__ __volatile__ ("fsel 17, 14, 15, 16"); } static void test_fmadd (void) { __asm__ __volatile__ ("fmadd 17, 14, 15, 16"); } static void test_fmadds (void) { __asm__ __volatile__ ("fmadds 17, 14, 15, 16"); } static void test_fmsub (void) { __asm__ __volatile__ ("fmsub 17, 14, 15, 16"); } static void test_fmsubs (void) { __asm__ __volatile__ ("fmsubs 17, 14, 15, 16"); } static void test_fnmadd (void) { __asm__ __volatile__ ("fnmadd 17, 14, 15, 16"); } static void test_fnmadds (void) { __asm__ __volatile__ ("fnmadds 17, 14, 15, 16"); } static void test_fnmsub (void) { __asm__ __volatile__ ("fnmsub 17, 14, 15, 16"); } static void test_fnmsubs (void) { __asm__ __volatile__ ("fnmsubs 17, 14, 15, 16"); } static test_t tests_fa_ops_three[] = { { &test_fsel , " fsel", }, { &test_fmadd , " fmadd", }, { &test_fmadds , " fmadds", }, { &test_fmsub , " fmsub", }, { &test_fmsubs , " fmsubs", }, { &test_fnmadd , " fnmadd", }, { &test_fnmadds , " fnmadds", }, { &test_fnmsub , " fnmsub", }, { &test_fnmsubs , " fnmsubs", }, { NULL, NULL, }, }; #endif /* !defined (NO_FLOAT) */ #if !defined (NO_FLOAT) static void test_fsel_ (void) { __asm__ __volatile__ ("fsel. 17, 14, 15, 16"); } static void test_fmadd_ (void) { __asm__ __volatile__ ("fmadd. 17, 14, 15, 16"); } static void test_fmadds_ (void) { __asm__ __volatile__ ("fmadds. 17, 14, 15, 16"); } static void test_fmsub_ (void) { __asm__ __volatile__ ("fmsub. 17, 14, 15, 16"); } static void test_fmsubs_ (void) { __asm__ __volatile__ ("fmsubs. 17, 14, 15, 16"); } static void test_fnmadd_ (void) { __asm__ __volatile__ ("fnmadd. 17, 14, 15, 16"); } static void test_fnmadds_ (void) { __asm__ __volatile__ ("fnmadds. 17, 14, 15, 16"); } static void test_fnmsub_ (void) { __asm__ __volatile__ ("fnmsub. 17, 14, 15, 16"); } static void test_fnmsubs_ (void) { __asm__ __volatile__ ("fnmsubs. 17, 14, 15, 16"); } static test_t tests_far_ops_three[] = { { &test_fsel_ , " fsel.", }, { &test_fmadd_ , " fmadd.", }, { &test_fmadds_ , " fmadds.", }, { &test_fmsub_ , " fmsub.", }, { &test_fmsubs_ , " fmsubs.", }, { &test_fnmadd_ , " fnmadd.", }, { &test_fnmadds_ , " fnmadds.", }, { &test_fnmsub_ , " fnmsub.", }, { &test_fnmsubs_ , " fnmsubs.", }, { NULL, NULL, }, }; #endif /* !defined (NO_FLOAT) */ #if !defined (NO_FLOAT) static void test_fadd (void) { __asm__ __volatile__ ("fadd 17, 14, 15"); } static void test_fadds (void) { __asm__ __volatile__ ("fadds 17, 14, 15"); } static void test_fsub (void) { __asm__ __volatile__ ("fsub 17, 14, 15"); } static void test_fsubs (void) { __asm__ __volatile__ ("fsubs 17, 14, 15"); } static void test_fmul (void) { __asm__ __volatile__ ("fmul 17, 14, 15"); } static void test_fmuls (void) { __asm__ __volatile__ ("fmuls 17, 14, 15"); } static void test_fdiv (void) { __asm__ __volatile__ ("fdiv 17, 14, 15"); } static void test_fdivs (void) { __asm__ __volatile__ ("fdivs 17, 14, 15"); } static test_t tests_fa_ops_two[] = { { &test_fadd , " fadd", }, { &test_fadds , " fadds", }, { &test_fsub , " fsub", }, { &test_fsubs , " fsubs", }, { &test_fmul , " fmul", }, { &test_fmuls , " fmuls", }, { &test_fdiv , " fdiv", }, { &test_fdivs , " fdivs", }, { NULL, NULL, }, }; #endif /* !defined (NO_FLOAT) */ #if !defined (NO_FLOAT) static void test_fadd_ (void) { __asm__ __volatile__ ("fadd. 17, 14, 15"); } static void test_fadds_ (void) { __asm__ __volatile__ ("fadds. 17, 14, 15"); } static void test_fsub_ (void) { __asm__ __volatile__ ("fsub. 17, 14, 15"); } static void test_fsubs_ (void) { __asm__ __volatile__ ("fsubs. 17, 14, 15"); } static void test_fmul_ (void) { __asm__ __volatile__ ("fmul. 17, 14, 15"); } static void test_fmuls_ (void) { __asm__ __volatile__ ("fmuls. 17, 14, 15"); } static void test_fdiv_ (void) { __asm__ __volatile__ ("fdiv. 17, 14, 15"); } static void test_fdivs_ (void) { __asm__ __volatile__ ("fdivs. 17, 14, 15"); } static test_t tests_far_ops_two[] = { { &test_fadd_ , " fadd.", }, { &test_fadds_ , " fadds.", }, { &test_fsub_ , " fsub.", }, { &test_fsubs_ , " fsubs.", }, { &test_fmul_ , " fmul.", }, { &test_fmuls_ , " fmuls.", }, { &test_fdiv_ , " fdiv.", }, { &test_fdivs_ , " fdivs.", }, { NULL, NULL, }, }; #endif /* !defined (NO_FLOAT) */ #if !defined (NO_FLOAT) static void test_fcmpo (void) { __asm__ __volatile__ ("fcmpo 2, 14, 15"); } static void test_fcmpu (void) { __asm__ __volatile__ ("fcmpu 2, 14, 15"); } static test_t tests_fcr_ops_two[] = { { &test_fcmpo , " fcmpo", }, { &test_fcmpu , " fcmpu", }, { NULL, NULL, }, }; #endif /* !defined (NO_FLOAT) */ #if !defined (NO_FLOAT) static void test_fres (void) { __asm__ __volatile__ ("fres 17, 14"); } static void test_frsqrte (void) { __asm__ __volatile__ ("frsqrte 17, 14"); } static void test_frsp (void) { __asm__ __volatile__ ("frsp 17, 14"); } static void test_fctiw (void) { __asm__ __volatile__ ("fctiw 17, 14"); } static void test_fctiwz (void) { __asm__ __volatile__ ("fctiwz 17, 14"); } static void test_fmr (void) { __asm__ __volatile__ ("fmr 17, 14"); } static void test_fneg (void) { __asm__ __volatile__ ("fneg 17, 14"); } static void test_fabs (void) { __asm__ __volatile__ ("fabs 17, 14"); } static void test_fnabs (void) { __asm__ __volatile__ ("fnabs 17, 14"); } static void test_fsqrt (void) { __asm__ __volatile__ ("fsqrt 17, 14"); } #ifdef __powerpc64__ static void test_fcfid (void) { __asm__ __volatile__ ("fcfid 17, 14"); } static void test_fctid (void) { __asm__ __volatile__ ("fctid 17, 14"); } static void test_fctidz (void) { __asm__ __volatile__ ("fctidz 17, 14"); } #endif // #ifdef __powerpc64__ static test_t tests_fa_ops_one[] = { { &test_fres , " fres", }, { &test_frsqrte , " frsqrte", }, { &test_frsp , " frsp", }, { &test_fctiw , " fctiw", }, { &test_fctiwz , " fctiwz", }, { &test_fmr , " fmr", }, { &test_fneg , " fneg", }, { &test_fabs , " fabs", }, { &test_fnabs , " fnabs", }, { &test_fsqrt , " fsqrt", }, #ifdef __powerpc64__ { &test_fcfid , " fcfid", }, { &test_fctid , " fctid", }, { &test_fctidz , " fctidz", }, #endif // #ifdef __powerpc64__ { NULL, NULL, }, }; #endif /* !defined (NO_FLOAT) */ #if !defined (NO_FLOAT) static void test_fres_ (void) { __asm__ __volatile__ ("fres. 17, 14"); } static void test_frsqrte_ (void) { __asm__ __volatile__ ("frsqrte. 17, 14"); } static void test_frsp_ (void) { __asm__ __volatile__ ("frsp. 17, 14"); } static void test_fctiw_ (void) { __asm__ __volatile__ ("fctiw. 17, 14"); } static void test_fctiwz_ (void) { __asm__ __volatile__ ("fctiwz. 17, 14"); } static void test_fmr_ (void) { __asm__ __volatile__ ("fmr. 17, 14"); } static void test_fneg_ (void) { __asm__ __volatile__ ("fneg. 17, 14"); } static void test_fabs_ (void) { __asm__ __volatile__ ("fabs. 17, 14"); } static void test_fnabs_ (void) { __asm__ __volatile__ ("fnabs. 17, 14"); } #ifdef __powerpc64__ static void test_fcfid_ (void) { __asm__ __volatile__ ("fcfid. 17, 14"); } static void test_fctid_ (void) { __asm__ __volatile__ ("fctid. 17, 14"); } static void test_fctidz_ (void) { __asm__ __volatile__ ("fctidz. 17, 14"); } #endif // #ifdef __powerpc64__ static test_t tests_far_ops_one[] = { { &test_fres_ , " fres.", }, { &test_frsqrte_ , " frsqrte.", }, { &test_frsp_ , " frsp.", }, { &test_fctiw_ , " fctiw.", }, { &test_fctiwz_ , " fctiwz.", }, { &test_fmr_ , " fmr.", }, { &test_fneg_ , " fneg.", }, { &test_fabs_ , " fabs.", }, { &test_fnabs_ , " fnabs.", }, #ifdef __powerpc64__ { &test_fcfid_ , " fcfid.", }, { &test_fctid_ , " fctid.", }, { &test_fctidz_ , " fctidz.", }, #endif // #ifdef __powerpc64__ { NULL, NULL, }, }; #endif /* !defined (NO_FLOAT) */ #if !defined (NO_FLOAT) static test_t tests_fl_ops_spe[] = { { NULL, NULL, }, }; #endif /* !defined (NO_FLOAT) */ #if !defined (NO_FLOAT) static test_t tests_flr_ops_spe[] = { { NULL, NULL, }, }; #endif /* !defined (NO_FLOAT) */ #if !defined (NO_FLOAT) extern void test_lfs (void); ASSEMBLY_FUNC("test_lfs", "lfs 17,0(14)"); extern void test_lfsu (void); ASSEMBLY_FUNC("test_lfsu", "lfsu 17,0(14)"); extern void test_lfd (void); ASSEMBLY_FUNC("test_lfd", "lfd 17,0(14)"); extern void test_lfdu (void); ASSEMBLY_FUNC("test_lfdu", "lfdu 17,0(14)"); static test_t tests_fld_ops_two_i16[] = { { &test_lfs , " lfs", }, { &test_lfsu , " lfsu", }, { &test_lfd , " lfd", }, { &test_lfdu , " lfdu", }, { NULL, NULL, }, }; #endif /* !defined (NO_FLOAT) */ #if !defined (NO_FLOAT) static void test_lfsx (void) { __asm__ __volatile__ ("lfsx 17,14,15"); } static void test_lfsux (void) { __asm__ __volatile__ ("lfsux 17,14,15"); } static void test_lfdx (void) { __asm__ __volatile__ ("lfdx 17,14,15"); } static void test_lfdux (void) { __asm__ __volatile__ ("lfdux 17,14,15"); } static test_t tests_fld_ops_two[] = { { &test_lfsx , " lfsx", }, { &test_lfsux , " lfsux", }, { &test_lfdx , " lfdx", }, { &test_lfdux , " lfdux", }, { NULL, NULL, }, }; #endif /* !defined (NO_FLOAT) */ #if !defined (NO_FLOAT) extern void test_stfs (void); ASSEMBLY_FUNC("test_stfs", "stfs 14,0(15)"); extern void test_stfsu (void); ASSEMBLY_FUNC("test_stfsu", "stfsu 14,0(15)"); extern void test_stfd (void); ASSEMBLY_FUNC("test_stfd", "stfd 14,0(15)"); extern void test_stfdu (void); ASSEMBLY_FUNC("test_stfdu", "stfdu 14,0(15)"); static test_t tests_fst_ops_three_i16[] = { { &test_stfs , " stfs", }, { &test_stfsu , " stfsu", }, { &test_stfd , " stfd", }, { &test_stfdu , " stfdu", }, { NULL, NULL, }, }; #endif /* !defined (NO_FLOAT) */ #if !defined (NO_FLOAT) static void test_stfsx (void) { __asm__ __volatile__ ("stfsx 14,15,16"); } static void test_stfsux (void) { __asm__ __volatile__ ("stfsux 14,15,16"); } static void test_stfdx (void) { __asm__ __volatile__ ("stfdx 14,15,16"); } static void test_stfdux (void) { __asm__ __volatile__ ("stfdux 14,15,16"); } static test_t tests_fst_ops_three[] = { { &test_stfsx , " stfsx", }, { &test_stfsux , " stfsux", }, { &test_stfdx , " stfdx", }, { &test_stfdux , " stfdux", }, { NULL, NULL, }, }; #endif /* !defined (NO_FLOAT) */ #if defined (HAS_ALTIVEC) static void test_vmhaddshs (void) { __asm__ __volatile__ ("vmhaddshs 17, 14, 15, 16"); } static void test_vmhraddshs (void) { __asm__ __volatile__ ("vmhraddshs 17, 14, 15, 16"); } static void test_vmladduhm (void) { __asm__ __volatile__ ("vmladduhm 17, 14, 15, 16"); } static void test_vmsumubm (void) { __asm__ __volatile__ ("vmsumubm 17, 14, 15, 16"); } static void test_vmsumuhm (void) { __asm__ __volatile__ ("vmsumuhm 17, 14, 15, 16"); } static void test_vmsumshs (void) { __asm__ __volatile__ ("vmsumshs 17, 14, 15, 16"); } static void test_vmsumuhs (void) { __asm__ __volatile__ ("vmsumuhs 17, 14, 15, 16"); } static void test_vmsummbm (void) { __asm__ __volatile__ ("vmsummbm 17, 14, 15, 16"); } static void test_vmsumshm (void) { __asm__ __volatile__ ("vmsumshm 17, 14, 15, 16"); } static test_t tests_aa_ops_three[] = { { &test_vmhaddshs , " vmhaddshs", }, { &test_vmhraddshs , " vmhraddshs", }, { &test_vmladduhm , " vmladduhm", }, { &test_vmsumubm , " vmsumubm", }, { &test_vmsumuhm , " vmsumuhm", }, { &test_vmsumshs , " vmsumshs", }, { &test_vmsumuhs , " vmsumuhs", }, { &test_vmsummbm , " vmsummbm", }, { &test_vmsumshm , " vmsumshm", }, { NULL, NULL, }, }; #endif /* defined (HAS_ALTIVEC) */ #if defined (HAS_ALTIVEC) static void test_vperm (void) { __asm__ __volatile__ ("vperm 17, 14, 15, 16"); } static void test_vsel (void) { __asm__ __volatile__ ("vsel 17, 14, 15, 16"); } static test_t tests_al_ops_three[] = { { &test_vperm , " vperm", }, { &test_vsel , " vsel", }, { NULL, NULL, }, }; #endif /* defined (HAS_ALTIVEC) */ #if defined (HAS_ALTIVEC) static void test_vaddubm (void) { __asm__ __volatile__ ("vaddubm 17, 14, 15"); } static void test_vadduhm (void) { __asm__ __volatile__ ("vadduhm 17, 14, 15"); } static void test_vadduwm (void) { __asm__ __volatile__ ("vadduwm 17, 14, 15"); } static void test_vaddubs (void) { __asm__ __volatile__ ("vaddubs 17, 14, 15"); } static void test_vadduhs (void) { __asm__ __volatile__ ("vadduhs 17, 14, 15"); } static void test_vadduws (void) { __asm__ __volatile__ ("vadduws 17, 14, 15"); } static void test_vaddsbs (void) { __asm__ __volatile__ ("vaddsbs 17, 14, 15"); } static void test_vaddshs (void) { __asm__ __volatile__ ("vaddshs 17, 14, 15"); } static void test_vaddsws (void) { __asm__ __volatile__ ("vaddsws 17, 14, 15"); } static void test_vaddcuw (void) { __asm__ __volatile__ ("vaddcuw 17, 14, 15"); } static void test_vsububm (void) { __asm__ __volatile__ ("vsububm 17, 14, 15"); } static void test_vsubuhm (void) { __asm__ __volatile__ ("vsubuhm 17, 14, 15"); } static void test_vsubuwm (void) { __asm__ __volatile__ ("vsubuwm 17, 14, 15"); } static void test_vsububs (void) { __asm__ __volatile__ ("vsububs 17, 14, 15"); } static void test_vsubuhs (void) { __asm__ __volatile__ ("vsubuhs 17, 14, 15"); } static void test_vsubuws (void) { __asm__ __volatile__ ("vsubuws 17, 14, 15"); } static void test_vsubsbs (void) { __asm__ __volatile__ ("vsubsbs 17, 14, 15"); } static void test_vsubshs (void) { __asm__ __volatile__ ("vsubshs 17, 14, 15"); } static void test_vsubsws (void) { __asm__ __volatile__ ("vsubsws 17, 14, 15"); } static void test_vsubcuw (void) { __asm__ __volatile__ ("vsubcuw 17, 14, 15"); } static void test_vmuloub (void) { __asm__ __volatile__ ("vmuloub 17, 14, 15"); } static void test_vmulouh (void) { __asm__ __volatile__ ("vmulouh 17, 14, 15"); } static void test_vmulosb (void) { __asm__ __volatile__ ("vmulosb 17, 14, 15"); } static void test_vmulosh (void) { __asm__ __volatile__ ("vmulosh 17, 14, 15"); } static void test_vmuleub (void) { __asm__ __volatile__ ("vmuleub 17, 14, 15"); } static void test_vmuleuh (void) { __asm__ __volatile__ ("vmuleuh 17, 14, 15"); } static void test_vmulesb (void) { __asm__ __volatile__ ("vmulesb 17, 14, 15"); } static void test_vmulesh (void) { __asm__ __volatile__ ("vmulesh 17, 14, 15"); } static void test_vsumsws (void) { __asm__ __volatile__ ("vsumsws 17, 14, 15"); } static void test_vsum2sws (void) { __asm__ __volatile__ ("vsum2sws 17, 14, 15"); } static void test_vsum4ubs (void) { __asm__ __volatile__ ("vsum4ubs 17, 14, 15"); } static void test_vsum4sbs (void) { __asm__ __volatile__ ("vsum4sbs 17, 14, 15"); } static void test_vsum4shs (void) { __asm__ __volatile__ ("vsum4shs 17, 14, 15"); } static void test_vavgub (void) { __asm__ __volatile__ ("vavgub 17, 14, 15"); } static void test_vavguh (void) { __asm__ __volatile__ ("vavguh 17, 14, 15"); } static void test_vavguw (void) { __asm__ __volatile__ ("vavguw 17, 14, 15"); } static void test_vavgsb (void) { __asm__ __volatile__ ("vavgsb 17, 14, 15"); } static void test_vavgsh (void) { __asm__ __volatile__ ("vavgsh 17, 14, 15"); } static void test_vavgsw (void) { __asm__ __volatile__ ("vavgsw 17, 14, 15"); } static void test_vmaxub (void) { __asm__ __volatile__ ("vmaxub 17, 14, 15"); } static void test_vmaxuh (void) { __asm__ __volatile__ ("vmaxuh 17, 14, 15"); } static void test_vmaxuw (void) { __asm__ __volatile__ ("vmaxuw 17, 14, 15"); } static void test_vmaxsb (void) { __asm__ __volatile__ ("vmaxsb 17, 14, 15"); } static void test_vmaxsh (void) { __asm__ __volatile__ ("vmaxsh 17, 14, 15"); } static void test_vmaxsw (void) { __asm__ __volatile__ ("vmaxsw 17, 14, 15"); } static void test_vminub (void) { __asm__ __volatile__ ("vminub 17, 14, 15"); } static void test_vminuh (void) { __asm__ __volatile__ ("vminuh 17, 14, 15"); } static void test_vminuw (void) { __asm__ __volatile__ ("vminuw 17, 14, 15"); } static void test_vminsb (void) { __asm__ __volatile__ ("vminsb 17, 14, 15"); } static void test_vminsh (void) { __asm__ __volatile__ ("vminsh 17, 14, 15"); } static void test_vminsw (void) { __asm__ __volatile__ ("vminsw 17, 14, 15"); } static test_t tests_aa_ops_two[] = { { &test_vaddubm , " vaddubm", }, { &test_vadduhm , " vadduhm", }, { &test_vadduwm , " vadduwm", }, { &test_vaddubs , " vaddubs", }, { &test_vadduhs , " vadduhs", }, { &test_vadduws , " vadduws", }, { &test_vaddsbs , " vaddsbs", }, { &test_vaddshs , " vaddshs", }, { &test_vaddsws , " vaddsws", }, { &test_vaddcuw , " vaddcuw", }, { &test_vsububm , " vsububm", }, { &test_vsubuhm , " vsubuhm", }, { &test_vsubuwm , " vsubuwm", }, { &test_vsububs , " vsububs", }, { &test_vsubuhs , " vsubuhs", }, { &test_vsubuws , " vsubuws", }, { &test_vsubsbs , " vsubsbs", }, { &test_vsubshs , " vsubshs", }, { &test_vsubsws , " vsubsws", }, { &test_vsubcuw , " vsubcuw", }, { &test_vmuloub , " vmuloub", }, { &test_vmulouh , " vmulouh", }, { &test_vmulosb , " vmulosb", }, { &test_vmulosh , " vmulosh", }, { &test_vmuleub , " vmuleub", }, { &test_vmuleuh , " vmuleuh", }, { &test_vmulesb , " vmulesb", }, { &test_vmulesh , " vmulesh", }, { &test_vsumsws , " vsumsws", }, { &test_vsum2sws , " vsum2sws", }, { &test_vsum4ubs , " vsum4ubs", }, { &test_vsum4sbs , " vsum4sbs", }, { &test_vsum4shs , " vsum4shs", }, { &test_vavgub , " vavgub", }, { &test_vavguh , " vavguh", }, { &test_vavguw , " vavguw", }, { &test_vavgsb , " vavgsb", }, { &test_vavgsh , " vavgsh", }, { &test_vavgsw , " vavgsw", }, { &test_vmaxub , " vmaxub", }, { &test_vmaxuh , " vmaxuh", }, { &test_vmaxuw , " vmaxuw", }, { &test_vmaxsb , " vmaxsb", }, { &test_vmaxsh , " vmaxsh", }, { &test_vmaxsw , " vmaxsw", }, { &test_vminub , " vminub", }, { &test_vminuh , " vminuh", }, { &test_vminuw , " vminuw", }, { &test_vminsb , " vminsb", }, { &test_vminsh , " vminsh", }, { &test_vminsw , " vminsw", }, { NULL, NULL, }, }; #endif /* defined (HAS_ALTIVEC) */ #if defined (HAS_ALTIVEC) static void test_vand (void) { __asm__ __volatile__ ("vand 17, 14, 15"); } static void test_vor (void) { __asm__ __volatile__ ("vor 17, 14, 15"); } static void test_vxor (void) { __asm__ __volatile__ ("vxor 17, 14, 15"); } static void test_vandc (void) { __asm__ __volatile__ ("vandc 17, 14, 15"); } static void test_vnor (void) { __asm__ __volatile__ ("vnor 17, 14, 15"); } static void test_vrlb (void) { __asm__ __volatile__ ("vrlb 17, 14, 15"); } static void test_vrlh (void) { __asm__ __volatile__ ("vrlh 17, 14, 15"); } static void test_vrlw (void) { __asm__ __volatile__ ("vrlw 17, 14, 15"); } static void test_vslb (void) { __asm__ __volatile__ ("vslb 17, 14, 15"); } static void test_vslh (void) { __asm__ __volatile__ ("vslh 17, 14, 15"); } static void test_vslw (void) { __asm__ __volatile__ ("vslw 17, 14, 15"); } static void test_vsrb (void) { __asm__ __volatile__ ("vsrb 17, 14, 15"); } static void test_vsrh (void) { __asm__ __volatile__ ("vsrh 17, 14, 15"); } static void test_vsrw (void) { __asm__ __volatile__ ("vsrw 17, 14, 15"); } static void test_vsrab (void) { __asm__ __volatile__ ("vsrab 17, 14, 15"); } static void test_vsrah (void) { __asm__ __volatile__ ("vsrah 17, 14, 15"); } static void test_vsraw (void) { __asm__ __volatile__ ("vsraw 17, 14, 15"); } static void test_vpkuhum (void) { __asm__ __volatile__ ("vpkuhum 17, 14, 15"); } static void test_vpkuwum (void) { __asm__ __volatile__ ("vpkuwum 17, 14, 15"); } static void test_vpkuhus (void) { __asm__ __volatile__ ("vpkuhus 17, 14, 15"); } static void test_vpkuwus (void) { __asm__ __volatile__ ("vpkuwus 17, 14, 15"); } static void test_vpkshus (void) { __asm__ __volatile__ ("vpkshus 17, 14, 15"); } static void test_vpkswus (void) { __asm__ __volatile__ ("vpkswus 17, 14, 15"); } static void test_vpkshss (void) { __asm__ __volatile__ ("vpkshss 17, 14, 15"); } static void test_vpkswss (void) { __asm__ __volatile__ ("vpkswss 17, 14, 15"); } static void test_vpkpx (void) { __asm__ __volatile__ ("vpkpx 17, 14, 15"); } static void test_vmrghb (void) { __asm__ __volatile__ ("vmrghb 17, 14, 15"); } static void test_vmrghh (void) { __asm__ __volatile__ ("vmrghh 17, 14, 15"); } static void test_vmrghw (void) { __asm__ __volatile__ ("vmrghw 17, 14, 15"); } static void test_vmrglb (void) { __asm__ __volatile__ ("vmrglb 17, 14, 15"); } static void test_vmrglh (void) { __asm__ __volatile__ ("vmrglh 17, 14, 15"); } static void test_vmrglw (void) { __asm__ __volatile__ ("vmrglw 17, 14, 15"); } static void test_vslo (void) { __asm__ __volatile__ ("vslo 17, 14, 15"); } static void test_vsro (void) { __asm__ __volatile__ ("vsro 17, 14, 15"); } static test_t tests_al_ops_two[] = { { &test_vand , " vand", }, { &test_vor , " vor", }, { &test_vxor , " vxor", }, { &test_vandc , " vandc", }, { &test_vnor , " vnor", }, { &test_vrlb , " vrlb", }, { &test_vrlh , " vrlh", }, { &test_vrlw , " vrlw", }, { &test_vslb , " vslb", }, { &test_vslh , " vslh", }, { &test_vslw , " vslw", }, { &test_vsrb , " vsrb", }, { &test_vsrh , " vsrh", }, { &test_vsrw , " vsrw", }, { &test_vsrab , " vsrab", }, { &test_vsrah , " vsrah", }, { &test_vsraw , " vsraw", }, { &test_vpkuhum , " vpkuhum", }, { &test_vpkuwum , " vpkuwum", }, { &test_vpkuhus , " vpkuhus", }, { &test_vpkuwus , " vpkuwus", }, { &test_vpkshus , " vpkshus", }, { &test_vpkswus , " vpkswus", }, { &test_vpkshss , " vpkshss", }, { &test_vpkswss , " vpkswss", }, { &test_vpkpx , " vpkpx", }, { &test_vmrghb , " vmrghb", }, { &test_vmrghh , " vmrghh", }, { &test_vmrghw , " vmrghw", }, { &test_vmrglb , " vmrglb", }, { &test_vmrglh , " vmrglh", }, { &test_vmrglw , " vmrglw", }, { &test_vslo , " vslo", }, { &test_vsro , " vsro", }, { NULL, NULL, }, }; #endif /* defined (HAS_ALTIVEC) */ #if defined (HAS_ALTIVEC) static void test_vupkhsb (void) { __asm__ __volatile__ ("vupkhsb 17, 14"); } static void test_vupkhsh (void) { __asm__ __volatile__ ("vupkhsh 17, 14"); } static void test_vupkhpx (void) { __asm__ __volatile__ ("vupkhpx 17, 14"); } static void test_vupklsb (void) { __asm__ __volatile__ ("vupklsb 17, 14"); } static void test_vupklsh (void) { __asm__ __volatile__ ("vupklsh 17, 14"); } static void test_vupklpx (void) { __asm__ __volatile__ ("vupklpx 17, 14"); } static test_t tests_al_ops_one[] = { { &test_vupkhsb , " vupkhsb", }, { &test_vupkhsh , " vupkhsh", }, { &test_vupkhpx , " vupkhpx", }, { &test_vupklsb , " vupklsb", }, { &test_vupklsh , " vupklsh", }, { &test_vupklpx , " vupklpx", }, { NULL, NULL, }, }; #endif /* defined (HAS_ALTIVEC) */ #if defined (HAS_ALTIVEC) static void test_vcmpgtub (void) { __asm__ __volatile__ ("vcmpgtub 17, 14, 15"); } static void test_vcmpgtuh (void) { __asm__ __volatile__ ("vcmpgtuh 17, 14, 15"); } static void test_vcmpgtuw (void) { __asm__ __volatile__ ("vcmpgtuw 17, 14, 15"); } static void test_vcmpgtsb (void) { __asm__ __volatile__ ("vcmpgtsb 17, 14, 15"); } static void test_vcmpgtsh (void) { __asm__ __volatile__ ("vcmpgtsh 17, 14, 15"); } static void test_vcmpgtsw (void) { __asm__ __volatile__ ("vcmpgtsw 17, 14, 15"); } static void test_vcmpequb (void) { __asm__ __volatile__ ("vcmpequb 17, 14, 15"); } static void test_vcmpequh (void) { __asm__ __volatile__ ("vcmpequh 17, 14, 15"); } static void test_vcmpequw (void) { __asm__ __volatile__ ("vcmpequw 17, 14, 15"); } static test_t tests_ac_ops_two[] = { { &test_vcmpgtub , " vcmpgtub", }, { &test_vcmpgtuh , " vcmpgtuh", }, { &test_vcmpgtuw , " vcmpgtuw", }, { &test_vcmpgtsb , " vcmpgtsb", }, { &test_vcmpgtsh , " vcmpgtsh", }, { &test_vcmpgtsw , " vcmpgtsw", }, { &test_vcmpequb , " vcmpequb", }, { &test_vcmpequh , " vcmpequh", }, { &test_vcmpequw , " vcmpequw", }, { NULL, NULL, }, }; #endif /* defined (HAS_ALTIVEC) */ #if defined (HAS_ALTIVEC) static void test_vcmpgtub_ (void) { __asm__ __volatile__ ("vcmpgtub. 17, 14, 15"); } static void test_vcmpgtuh_ (void) { __asm__ __volatile__ ("vcmpgtuh. 17, 14, 15"); } static void test_vcmpgtuw_ (void) { __asm__ __volatile__ ("vcmpgtuw. 17, 14, 15"); } static void test_vcmpgtsb_ (void) { __asm__ __volatile__ ("vcmpgtsb. 17, 14, 15"); } static void test_vcmpgtsh_ (void) { __asm__ __volatile__ ("vcmpgtsh. 17, 14, 15"); } static void test_vcmpgtsw_ (void) { __asm__ __volatile__ ("vcmpgtsw. 17, 14, 15"); } static void test_vcmpequb_ (void) { __asm__ __volatile__ ("vcmpequb. 17, 14, 15"); } static void test_vcmpequh_ (void) { __asm__ __volatile__ ("vcmpequh. 17, 14, 15"); } static void test_vcmpequw_ (void) { __asm__ __volatile__ ("vcmpequw. 17, 14, 15"); } static test_t tests_acr_ops_two[] = { { &test_vcmpgtub_ , " vcmpgtub.", }, { &test_vcmpgtuh_ , " vcmpgtuh.", }, { &test_vcmpgtuw_ , " vcmpgtuw.", }, { &test_vcmpgtsb_ , " vcmpgtsb.", }, { &test_vcmpgtsh_ , " vcmpgtsh.", }, { &test_vcmpgtsw_ , " vcmpgtsw.", }, { &test_vcmpequb_ , " vcmpequb.", }, { &test_vcmpequh_ , " vcmpequh.", }, { &test_vcmpequw_ , " vcmpequw.", }, { NULL, NULL, }, }; #endif /* defined (HAS_ALTIVEC) */ #if defined (HAS_ALTIVEC) static void test_vsl (void) { __asm__ __volatile__ ("vsl 17, 14, 15"); } static void test_vsr (void) { __asm__ __volatile__ ("vsr 17, 14, 15"); } extern void test_vspltb (void); ASSEMBLY_FUNC("test_vspltb", "vspltb 17, 14, 0"); extern void test_vsplth (void); ASSEMBLY_FUNC("test_vsplth", "vsplth 17, 14, 0"); extern void test_vspltw (void); ASSEMBLY_FUNC("test_vspltw", "vspltw 17, 14, 0"); extern void test_vspltisb (void); ASSEMBLY_FUNC("test_vspltisb", "vspltisb 17, 0"); extern void test_vspltish (void); ASSEMBLY_FUNC("test_vspltish", "vspltish 17, 0"); extern void test_vspltisw (void); ASSEMBLY_FUNC("test_vspltisw", "vspltisw 17, 0"); extern void test_vsldoi (void); ASSEMBLY_FUNC("test_vsldoi", "vsldoi 17, 14, 15, 0"); static void test_lvsl (void) { __asm__ __volatile__ ("lvsl 17, 14, 15"); } static void test_lvsr (void) { __asm__ __volatile__ ("lvsr 17, 14, 15"); } static test_t tests_av_int_ops_spe[] = { { &test_vsl , " vsl", }, { &test_vsr , " vsr", }, { &test_vspltb , " vspltb", }, { &test_vsplth , " vsplth", }, { &test_vspltw , " vspltw", }, { &test_vspltisb , " vspltisb", }, { &test_vspltish , " vspltish", }, { &test_vspltisw , " vspltisw", }, { &test_vsldoi , " vsldoi", }, { &test_lvsl , " lvsl", }, { &test_lvsr , " lvsr", }, { NULL, NULL, }, }; #endif /* defined (HAS_ALTIVEC) */ #if defined (HAS_ALTIVEC) static void test_lvebx (void) { __asm__ __volatile__ ("lvebx 17,14,15"); } static void test_lvehx (void) { __asm__ __volatile__ ("lvehx 17,14,15"); } static void test_lvewx (void) { __asm__ __volatile__ ("lvewx 17,14,15"); } static void test_lvx (void) { __asm__ __volatile__ ("lvx 17,14,15"); } static void test_lvxl (void) { __asm__ __volatile__ ("lvxl 17,14,15"); } static test_t tests_ald_ops_two[] = { { &test_lvebx , " lvebx", }, { &test_lvehx , " lvehx", }, { &test_lvewx , " lvewx", }, { &test_lvx , " lvx", }, { &test_lvxl , " lvxl", }, { NULL, NULL, }, }; #endif /* defined (HAS_ALTIVEC) */ #if defined (HAS_ALTIVEC) static void test_stvebx (void) { __asm__ __volatile__ ("stvebx 14,15,16"); } static void test_stvehx (void) { __asm__ __volatile__ ("stvehx 14,15,16"); } static void test_stvewx (void) { __asm__ __volatile__ ("stvewx 14,15,16"); } static void test_stvx (void) { __asm__ __volatile__ ("stvx 14,15,16"); } static void test_stvxl (void) { __asm__ __volatile__ ("stvxl 14,15,16"); } static test_t tests_ast_ops_three[] = { { &test_stvebx , " stvebx", }, { &test_stvehx , " stvehx", }, { &test_stvewx , " stvewx", }, { &test_stvx , " stvx", }, { &test_stvxl , " stvxl", }, { NULL, NULL, }, }; #endif /* defined (HAS_ALTIVEC) */ #if defined (HAS_ALTIVEC) #if 1 static void test_vmaddfp (void) { __asm__ __volatile__ ("vmaddfp 17, 14, 15, 16"); } static void test_vnmsubfp (void) { __asm__ __volatile__ ("vnmsubfp 17, 14, 15, 16"); } #endif static test_t tests_afa_ops_three[] = { { &test_vmaddfp , " vmaddfp", }, { &test_vnmsubfp , " vnmsubfp", }, { NULL, NULL, }, }; #endif /* defined (HAS_ALTIVEC) */ #if defined (HAS_ALTIVEC) static void test_vaddfp (void) { __asm__ __volatile__ ("vaddfp 17, 14, 15"); } static void test_vsubfp (void) { __asm__ __volatile__ ("vsubfp 17, 14, 15"); } static void test_vmaxfp (void) { __asm__ __volatile__ ("vmaxfp 17, 14, 15"); } static void test_vminfp (void) { __asm__ __volatile__ ("vminfp 17, 14, 15"); } static test_t tests_afa_ops_two[] = { { &test_vaddfp , " vaddfp", }, { &test_vsubfp , " vsubfp", }, { &test_vmaxfp , " vmaxfp", }, { &test_vminfp , " vminfp", }, { NULL, NULL, }, }; #endif /* defined (HAS_ALTIVEC) */ #if defined (HAS_ALTIVEC) static void test_vrfin (void) { __asm__ __volatile__ ("vrfin 17, 14"); } static void test_vrfiz (void) { __asm__ __volatile__ ("vrfiz 17, 14"); } static void test_vrfip (void) { __asm__ __volatile__ ("vrfip 17, 14"); } static void test_vrfim (void) { __asm__ __volatile__ ("vrfim 17, 14"); } static void test_vrefp (void) { __asm__ __volatile__ ("vrefp 17, 14"); } static void test_vrsqrtefp (void) { __asm__ __volatile__ ("vrsqrtefp 17, 14"); } #if 0 // TODO: Not yet supported static void test_vlogefp (void) { __asm__ __volatile__ ("vlogefp 17, 14"); } static void test_vexptefp (void) { __asm__ __volatile__ ("vexptefp 17, 14"); } #endif static test_t tests_afa_ops_one[] = { { &test_vrfin , " vrfin", }, { &test_vrfiz , " vrfiz", }, { &test_vrfip , " vrfip", }, { &test_vrfim , " vrfim", }, { &test_vrefp , " vrefp", }, { &test_vrsqrtefp , " vrsqrtefp", }, // { &test_vlogefp , " vlogefp", }, // TODO: Not yet supported // { &test_vexptefp , " vexptefp", }, // TODO: Not yet supported { NULL, NULL, }, }; #endif /* defined (HAS_ALTIVEC) */ #if defined (HAS_ALTIVEC) static void test_vcmpgtfp (void) { __asm__ __volatile__ ("vcmpgtfp 17, 14, 15"); } static void test_vcmpeqfp (void) { __asm__ __volatile__ ("vcmpeqfp 17, 14, 15"); } static void test_vcmpgefp (void) { __asm__ __volatile__ ("vcmpgefp 17, 14, 15"); } static void test_vcmpbfp (void) { __asm__ __volatile__ ("vcmpbfp 17, 14, 15"); } static test_t tests_afc_ops_two[] = { { &test_vcmpgtfp , " vcmpgtfp", }, { &test_vcmpeqfp , " vcmpeqfp", }, { &test_vcmpgefp , " vcmpgefp", }, { &test_vcmpbfp , " vcmpbfp", }, { NULL, NULL, }, }; #endif /* defined (HAS_ALTIVEC) */ #if defined (HAS_ALTIVEC) static void test_vcmpgtfp_ (void) { __asm__ __volatile__ ("vcmpgtfp. 17, 14, 15"); } static void test_vcmpeqfp_ (void) { __asm__ __volatile__ ("vcmpeqfp. 17, 14, 15"); } static void test_vcmpgefp_ (void) { __asm__ __volatile__ ("vcmpgefp. 17, 14, 15"); } static void test_vcmpbfp_ (void) { __asm__ __volatile__ ("vcmpbfp. 17, 14, 15"); } static test_t tests_afcr_ops_two[] = { { &test_vcmpgtfp_ , " vcmpgtfp.", }, { &test_vcmpeqfp_ , " vcmpeqfp.", }, { &test_vcmpgefp_ , " vcmpgefp.", }, { &test_vcmpbfp_ , " vcmpbfp.", }, { NULL, NULL, }, }; #endif /* defined (HAS_ALTIVEC) */ #if defined (HAS_ALTIVEC) extern void test_vcfux (void); ASSEMBLY_FUNC("test_vcfux", "vcfux 17, 14, 0"); extern void test_vcfsx (void); ASSEMBLY_FUNC("test_vcfsx", "vcfsx 17, 14, 0"); extern void test_vctuxs (void); ASSEMBLY_FUNC("test_vctuxs", "vctuxs 17, 14, 0"); extern void test_vctsxs (void); ASSEMBLY_FUNC("test_vctsxs", "vctsxs 17, 14, 0"); static test_t tests_av_float_ops_spe[] = { { &test_vcfux , " vcfux", }, { &test_vcfsx , " vcfsx", }, { &test_vctuxs , " vctuxs", }, { &test_vctsxs , " vctsxs", }, { NULL, NULL, }, }; #endif /* defined (HAS_ALTIVEC) */ /* Power ISA 2.03 support dcbtct and dcbtstct with valid hint values b00000 - 0b00111. * The ISA 2.06 added support for more valid hint values, but rather than tie ourselves * in knots trying to test all permutations of ISAs and valid hint values, we'll just * verify some of the base hint values from ISA 2.03. * * In a similar vein, in ISA 2.03, dcbtds had valid values of 0b01000 - 0b01010, whereas * ISA 2.06 expanded the range of valid hint values to 0b01000 - 0b01111. We just test * one of the ISA 2.03-supported values for dcbtds. */ static void test_dcbtct (void) { /* dcbt RA, RB, TH */ ASM_DCBT(17, 14, 1); ASM_DCBT(17, 14, 7); } static void test_dcbtds (void) { /* dcbt RA, RB, TH */ ASM_DCBT(17, 14, 10); ASM_DCBT(17, 14, 0); ASM_DCBT(17, 14, 16); } static void test_dcbtst (void) { /* dcbtst RA, RB, TH */ ASM_DCBTST(17, 14, 6); ASM_DCBTST(17, 14, 15); } static test_t tests_dcbt[] = { { &test_dcbtct , " dcbtct", }, { &test_dcbtds , " dcbtds", }, { &test_dcbtst , " dcbtst", }, { NULL, NULL, }, }; #if defined (IS_PPC405) static void test_macchw (void) { __asm__ __volatile__ ("macchw 17, 14, 15"); } static void test_macchwo (void) { __asm__ __volatile__ ("macchwo 17, 14, 15"); } static void test_macchws (void) { __asm__ __volatile__ ("macchws 17, 14, 15"); } static void test_macchwso (void) { __asm__ __volatile__ ("macchwso 17, 14, 15"); } static void test_macchwsu (void) { __asm__ __volatile__ ("macchwsu 17, 14, 15"); } static void test_macchwsuo (void) { __asm__ __volatile__ ("macchwsuo 17, 14, 15"); } static void test_macchwu (void) { __asm__ __volatile__ ("macchwu 17, 14, 15"); } static void test_macchwuo (void) { __asm__ __volatile__ ("macchwuo 17, 14, 15"); } static void test_machhw (void) { __asm__ __volatile__ ("machhw 17, 14, 15"); } static void test_machhwo (void) { __asm__ __volatile__ ("machhwo 17, 14, 15"); } static void test_machhws (void) { __asm__ __volatile__ ("machhws 17, 14, 15"); } static void test_machhwso (void) { __asm__ __volatile__ ("machhwso 17, 14, 15"); } static void test_machhwsu (void) { __asm__ __volatile__ ("machhwsu 17, 14, 15"); } static void test_machhwsuo (void) { __asm__ __volatile__ ("machhwsuo 17, 14, 15"); } static void test_machhwu (void) { __asm__ __volatile__ ("machhwu 17, 14, 15"); } static void test_machhwuo (void) { __asm__ __volatile__ ("machhwuo 17, 14, 15"); } static void test_maclhw (void) { __asm__ __volatile__ ("maclhw 17, 14, 15"); } static void test_maclhwo (void) { __asm__ __volatile__ ("maclhwo 17, 14, 15"); } static void test_maclhws (void) { __asm__ __volatile__ ("maclhws 17, 14, 15"); } static void test_maclhwso (void) { __asm__ __volatile__ ("maclhwso 17, 14, 15"); } static void test_maclhwsu (void) { __asm__ __volatile__ ("maclhwsu 17, 14, 15"); } static void test_maclhwsuo (void) { __asm__ __volatile__ ("maclhwsuo 17, 14, 15"); } static void test_maclhwu (void) { __asm__ __volatile__ ("maclhwu 17, 14, 15"); } static void test_maclhwuo (void) { __asm__ __volatile__ ("maclhwuo 17, 14, 15"); } static void test_mulchw (void) { __asm__ __volatile__ ("mulchw 17, 14, 15"); } static void test_mulchwu (void) { __asm__ __volatile__ ("mulchwu 17, 14, 15"); } static void test_mulhhw (void) { __asm__ __volatile__ ("mulhhw 17, 14, 15"); } static void test_mulhhwu (void) { __asm__ __volatile__ ("mulhhwu 17, 14, 15"); } static void test_mullhw (void) { __asm__ __volatile__ ("mullhw 17, 14, 15"); } static void test_mullhwu (void) { __asm__ __volatile__ ("mullhwu 17, 14, 15"); } static void test_nmacchw (void) { __asm__ __volatile__ ("nmacchw 17, 14, 15"); } static void test_nmacchwo (void) { __asm__ __volatile__ ("nmacchwo 17, 14, 15"); } static void test_nmacchws (void) { __asm__ __volatile__ ("nmacchws 17, 14, 15"); } static void test_nmacchwso (void) { __asm__ __volatile__ ("nmacchwso 17, 14, 15"); } static void test_nmachhw (void) { __asm__ __volatile__ ("nmachhw 17, 14, 15"); } static void test_nmachhwo (void) { __asm__ __volatile__ ("nmachhwo 17, 14, 15"); } static void test_nmachhws (void) { __asm__ __volatile__ ("nmachhws 17, 14, 15"); } static void test_nmachhwso (void) { __asm__ __volatile__ ("nmachhwso 17, 14, 15"); } static void test_nmaclhw (void) { __asm__ __volatile__ ("nmaclhw 17, 14, 15"); } static void test_nmaclhwo (void) { __asm__ __volatile__ ("nmaclhwo 17, 14, 15"); } static void test_nmaclhws (void) { __asm__ __volatile__ ("nmaclhws 17, 14, 15"); } static void test_nmaclhwso (void) { __asm__ __volatile__ ("nmaclhwso 17, 14, 15"); } static test_t tests_p4m_ops_two[] = { { &test_macchw , " macchw", }, { &test_macchwo , " macchwo", }, { &test_macchws , " macchws", }, { &test_macchwso , " macchwso", }, { &test_macchwsu , " macchwsu", }, { &test_macchwsuo , " macchwsuo", }, { &test_macchwu , " macchwu", }, { &test_macchwuo , " macchwuo", }, { &test_machhw , " machhw", }, { &test_machhwo , " machhwo", }, { &test_machhws , " machhws", }, { &test_machhwso , " machhwso", }, { &test_machhwsu , " machhwsu", }, { &test_machhwsuo , " machhwsuo", }, { &test_machhwu , " machhwu", }, { &test_machhwuo , " machhwuo", }, { &test_maclhw , " maclhw", }, { &test_maclhwo , " maclhwo", }, { &test_maclhws , " maclhws", }, { &test_maclhwso , " maclhwso", }, { &test_maclhwsu , " maclhwsu", }, { &test_maclhwsuo , " maclhwsuo", }, { &test_maclhwu , " maclhwu", }, { &test_maclhwuo , " maclhwuo", }, { &test_mulchw , " mulchw", }, { &test_mulchwu , " mulchwu", }, { &test_mulhhw , " mulhhw", }, { &test_mulhhwu , " mulhhwu", }, { &test_mullhw , " mullhw", }, { &test_mullhwu , " mullhwu", }, { &test_nmacchw , " nmacchw", }, { &test_nmacchwo , " nmacchwo", }, { &test_nmacchws , " nmacchws", }, { &test_nmacchwso , " nmacchwso", }, { &test_nmachhw , " nmachhw", }, { &test_nmachhwo , " nmachhwo", }, { &test_nmachhws , " nmachhws", }, { &test_nmachhwso , " nmachhwso", }, { &test_nmaclhw , " nmaclhw", }, { &test_nmaclhwo , " nmaclhwo", }, { &test_nmaclhws , " nmaclhws", }, { &test_nmaclhwso , " nmaclhwso", }, { NULL, NULL, }, }; #endif /* defined (IS_PPC405) */ #if defined (IS_PPC405) static void test_macchw_ (void) { __asm__ __volatile__ ("macchw. 17, 14, 15"); } static void test_macchwo_ (void) { __asm__ __volatile__ ("macchwo. 17, 14, 15"); } static void test_macchws_ (void) { __asm__ __volatile__ ("macchws. 17, 14, 15"); } static void test_macchwso_ (void) { __asm__ __volatile__ ("macchwso. 17, 14, 15"); } static void test_macchwsu_ (void) { __asm__ __volatile__ ("macchwsu. 17, 14, 15"); } static void test_macchwsuo_ (void) { __asm__ __volatile__ ("macchwsuo. 17, 14, 15"); } static void test_macchwu_ (void) { __asm__ __volatile__ ("macchwu. 17, 14, 15"); } static void test_macchwuo_ (void) { __asm__ __volatile__ ("macchwuo. 17, 14, 15"); } static void test_machhw_ (void) { __asm__ __volatile__ ("machhw. 17, 14, 15"); } static void test_machhwo_ (void) { __asm__ __volatile__ ("machhwo. 17, 14, 15"); } static void test_machhws_ (void) { __asm__ __volatile__ ("machhws. 17, 14, 15"); } static void test_machhwso_ (void) { __asm__ __volatile__ ("machhwso. 17, 14, 15"); } static void test_machhwsu_ (void) { __asm__ __volatile__ ("machhwsu. 17, 14, 15"); } static void test_machhwsuo_ (void) { __asm__ __volatile__ ("machhwsuo. 17, 14, 15"); } static void test_machhwu_ (void) { __asm__ __volatile__ ("machhwu. 17, 14, 15"); } static void test_machhwuo_ (void) { __asm__ __volatile__ ("machhwuo. 17, 14, 15"); } static void test_maclhw_ (void) { __asm__ __volatile__ ("maclhw. 17, 14, 15"); } static void test_maclhwo_ (void) { __asm__ __volatile__ ("maclhwo. 17, 14, 15"); } static void test_maclhws_ (void) { __asm__ __volatile__ ("maclhws. 17, 14, 15"); } static void test_maclhwso_ (void) { __asm__ __volatile__ ("maclhwso. 17, 14, 15"); } static void test_maclhwsu_ (void) { __asm__ __volatile__ ("maclhwsu. 17, 14, 15"); } static void test_maclhwsuo_ (void) { __asm__ __volatile__ ("maclhwsuo. 17, 14, 15"); } static void test_maclhwu_ (void) { __asm__ __volatile__ ("maclhwu. 17, 14, 15"); } static void test_maclhwuo_ (void) { __asm__ __volatile__ ("maclhwuo. 17, 14, 15"); } static void test_mulchw_ (void) { __asm__ __volatile__ ("mulchw. 17, 14, 15"); } static void test_mulchwu_ (void) { __asm__ __volatile__ ("mulchwu. 17, 14, 15"); } static void test_mulhhw_ (void) { __asm__ __volatile__ ("mulhhw. 17, 14, 15"); } static void test_mulhhwu_ (void) { __asm__ __volatile__ ("mulhhwu. 17, 14, 15"); } static void test_mullhw_ (void) { __asm__ __volatile__ ("mullhw. 17, 14, 15"); } static void test_mullhwu_ (void) { __asm__ __volatile__ ("mullhwu. 17, 14, 15"); } static void test_nmacchw_ (void) { __asm__ __volatile__ ("nmacchw. 17, 14, 15"); } static void test_nmacchwo_ (void) { __asm__ __volatile__ ("nmacchwo. 17, 14, 15"); } static void test_nmacchws_ (void) { __asm__ __volatile__ ("nmacchws. 17, 14, 15"); } static void test_nmacchwso_ (void) { __asm__ __volatile__ ("nmacchwso. 17, 14, 15"); } static void test_nmachhw_ (void) { __asm__ __volatile__ ("nmachhw. 17, 14, 15"); } static void test_nmachhwo_ (void) { __asm__ __volatile__ ("nmachhwo. 17, 14, 15"); } static void test_nmachhws_ (void) { __asm__ __volatile__ ("nmachhws. 17, 14, 15"); } static void test_nmachhwso_ (void) { __asm__ __volatile__ ("nmachhwso. 17, 14, 15"); } static void test_nmaclhw_ (void) { __asm__ __volatile__ ("nmaclhw. 17, 14, 15"); } static void test_nmaclhwo_ (void) { __asm__ __volatile__ ("nmaclhwo. 17, 14, 15"); } static void test_nmaclhws_ (void) { __asm__ __volatile__ ("nmaclhws. 17, 14, 15"); } static void test_nmaclhwso_ (void) { __asm__ __volatile__ ("nmaclhwso. 17, 14, 15"); } static test_t tests_p4mc_ops_two[] = { { &test_macchw_ , " macchw.", }, { &test_macchwo_ , " macchwo.", }, { &test_macchws_ , " macchws.", }, { &test_macchwso_ , " macchwso.", }, { &test_macchwsu_ , " macchwsu.", }, { &test_macchwsuo_ , " macchwsuo.", }, { &test_macchwu_ , " macchwu.", }, { &test_macchwuo_ , " macchwuo.", }, { &test_machhw_ , " machhw.", }, { &test_machhwo_ , " machhwo.", }, { &test_machhws_ , " machhws.", }, { &test_machhwso_ , " machhwso.", }, { &test_machhwsu_ , " machhwsu.", }, { &test_machhwsuo_ , " machhwsuo.", }, { &test_machhwu_ , " machhwu.", }, { &test_machhwuo_ , " machhwuo.", }, { &test_maclhw_ , " maclhw.", }, { &test_maclhwo_ , " maclhwo.", }, { &test_maclhws_ , " maclhws.", }, { &test_maclhwso_ , " maclhwso.", }, { &test_maclhwsu_ , " maclhwsu.", }, { &test_maclhwsuo_ , " maclhwsuo.", }, { &test_maclhwu_ , " maclhwu.", }, { &test_maclhwuo_ , " maclhwuo.", }, { &test_mulchw_ , " mulchw.", }, { &test_mulchwu_ , " mulchwu.", }, { &test_mulhhw_ , " mulhhw.", }, { &test_mulhhwu_ , " mulhhwu.", }, { &test_mullhw_ , " mullhw.", }, { &test_mullhwu_ , " mullhwu.", }, { &test_nmacchw_ , " nmacchw.", }, { &test_nmacchwo_ , " nmacchwo.", }, { &test_nmacchws_ , " nmacchws.", }, { &test_nmacchwso_ , " nmacchwso.", }, { &test_nmachhw_ , " nmachhw.", }, { &test_nmachhwo_ , " nmachhwo.", }, { &test_nmachhws_ , " nmachhws.", }, { &test_nmachhwso_ , " nmachhwso.", }, { &test_nmaclhw_ , " nmaclhw.", }, { &test_nmaclhwo_ , " nmaclhwo.", }, { &test_nmaclhws_ , " nmaclhws.", }, { &test_nmaclhwso_ , " nmaclhwso.", }, { NULL, NULL, }, }; #endif /* defined (IS_PPC405) */ static test_table_t all_tests[] = { { tests_ia_ops_two , "PPC integer arith insns with two args", 0x00010102, }, { tests_iar_ops_two , "PPC integer arith insns with two args with flags update", 0x01010102, }, { tests_iac_ops_two , "PPC integer arith insns with two args and carry", 0x02010102, }, { tests_iacr_ops_two , "PPC integer arith insns with two args and carry with flags update", 0x03010102, }, { tests_il_ops_two , "PPC integer logical insns with two args", 0x00010202, }, { tests_ilr_ops_two , "PPC integer logical insns with two args with flags update", 0x01010202, }, { tests_icr_ops_two , "PPC integer compare insns (two args)", 0x01010304, }, { tests_icr_ops_two_i16 , "PPC integer compare with immediate insns (two args)", 0x01010305, }, { tests_ia_ops_two_i16 , "PPC integer arith insns\n with one register + one 16 bits immediate args", 0x00010106, }, { tests_iar_ops_two_i16 , "PPC integer arith insns\n with one register + one 16 bits immediate args with flags update", 0x01010106, }, { tests_il_ops_two_i16 , "PPC integer logical insns\n with one register + one 16 bits immediate args", 0x00010206, }, { tests_ilr_ops_two_i16 , "PPC integer logical insns\n with one register + one 16 bits immediate args with flags update", 0x01010206, }, { tests_crl_ops_two , "PPC condition register logical insns - two operands", 0x01010202, }, { tests_iac_ops_one , "PPC integer arith insns with one arg and carry", 0x02010101, }, { tests_iacr_ops_one , "PPC integer arith insns with one arg and carry with flags update", 0x03010101, }, { tests_il_ops_one , "PPC integer logical insns with one arg", 0x00010201, }, { tests_ilr_ops_one , "PPC integer logical insns with one arg with flags update", 0x01010201, }, { tests_il_ops_spe , "PPC logical insns with special forms", 0x00010207, }, { tests_ilr_ops_spe , "PPC logical insns with special forms with flags update", 0x01010207, }, { tests_ild_ops_two_i16 , "PPC integer load insns\n with one register + one 16 bits immediate args with flags update", 0x00010508, }, { tests_ild_ops_two , "PPC integer load insns with two register args", 0x00010509, }, { tests_ist_ops_three_i16, "PPC integer store insns\n with one register + one 16 bits immediate args with flags update", 0x0001050a, }, { tests_ist_ops_three , "PPC integer store insns with three register args", 0x0001050b, }, { tests_popcnt_ops_one , "PPC integer population count with one register args, no flags", 0x00010601, }, #if !defined (NO_FLOAT) { tests_fa_ops_three , "PPC floating point arith insns with three args", 0x00020103, }, #endif /* !defined (NO_FLOAT) */ #if !defined (NO_FLOAT) { tests_far_ops_three , "PPC floating point arith insns\n with three args with flags update", 0x01020103, }, #endif /* !defined (NO_FLOAT) */ #if !defined (NO_FLOAT) { tests_fa_ops_two , "PPC floating point arith insns with two args", 0x00020102, }, #endif /* !defined (NO_FLOAT) */ #if !defined (NO_FLOAT) { tests_far_ops_two , "PPC floating point arith insns\n with two args with flags update", 0x01020102, }, #endif /* !defined (NO_FLOAT) */ #if !defined (NO_FLOAT) { tests_fcr_ops_two , "PPC floating point compare insns (two args)", 0x01020304, }, #endif /* !defined (NO_FLOAT) */ #if !defined (NO_FLOAT) { tests_fa_ops_one , "PPC floating point arith insns with one arg", 0x00020101, }, #endif /* !defined (NO_FLOAT) */ #if !defined (NO_FLOAT) { tests_far_ops_one , "PPC floating point arith insns\n with one arg with flags update", 0x01020101, }, #endif /* !defined (NO_FLOAT) */ #if !defined (NO_FLOAT) { tests_fl_ops_spe , "PPC floating point status register manipulation insns", 0x00020207, }, #endif /* !defined (NO_FLOAT) */ #if !defined (NO_FLOAT) { tests_flr_ops_spe , "PPC floating point status register manipulation insns\n with flags update", 0x01020207, }, #endif /* !defined (NO_FLOAT) */ #if !defined (NO_FLOAT) { tests_fld_ops_two_i16 , "PPC float load insns\n with one register + one 16 bits immediate args with flags update", 0x00020508, }, #endif /* !defined (NO_FLOAT) */ #if !defined (NO_FLOAT) { tests_fld_ops_two , "PPC float load insns with two register args", 0x00020509, }, #endif /* !defined (NO_FLOAT) */ #if !defined (NO_FLOAT) { tests_fst_ops_three_i16, "PPC float store insns\n with one register + one 16 bits immediate args with flags update", 0x0002050a, }, #endif /* !defined (NO_FLOAT) */ #if !defined (NO_FLOAT) { tests_fst_ops_three , "PPC float store insns with three register args", 0x0002050b, }, #endif /* !defined (NO_FLOAT) */ #if defined (HAS_ALTIVEC) { tests_aa_ops_three , "PPC altivec integer arith insns with three args", 0x00040103, }, #endif /* defined (HAS_ALTIVEC) */ #if defined (HAS_ALTIVEC) { tests_al_ops_three , "PPC altivec integer logical insns with three args", 0x00040203, }, #endif /* defined (HAS_ALTIVEC) */ #if defined (HAS_ALTIVEC) { tests_aa_ops_two , "PPC altivec integer arith insns with two args", 0x00040102, }, #endif /* defined (HAS_ALTIVEC) */ #if defined (HAS_ALTIVEC) { tests_al_ops_two , "PPC altivec integer logical insns with two args", 0x00040202, }, #endif /* defined (HAS_ALTIVEC) */ #if defined (HAS_ALTIVEC) { tests_al_ops_one , "PPC altivec integer logical insns with one arg", 0x00040201, }, #endif /* defined (HAS_ALTIVEC) */ #if defined (HAS_ALTIVEC) { tests_ac_ops_two , "Altivec integer compare insns", 0x00040302, }, #endif /* defined (HAS_ALTIVEC) */ #if defined (HAS_ALTIVEC) { tests_acr_ops_two , "Altivec integer compare insns with flags update", 0x01040302, }, #endif /* defined (HAS_ALTIVEC) */ #if defined (HAS_ALTIVEC) { tests_av_int_ops_spe , "Altivec integer special insns", 0x00040207, }, #endif /* defined (HAS_ALTIVEC) */ #if defined (HAS_ALTIVEC) { tests_ald_ops_two , "Altivec load insns with two register args", 0x00040509, }, #endif /* defined (HAS_ALTIVEC) */ #if defined (HAS_ALTIVEC) { tests_ast_ops_three , "Altivec store insns with three register args", 0x0004050b, }, #endif /* defined (HAS_ALTIVEC) */ #if defined (HAS_ALTIVEC) { tests_afa_ops_two , "Altivec floating point arith insns with two args", 0x00050102, }, #endif /* defined (HAS_ALTIVEC) */ #if defined (HAS_ALTIVEC) { tests_afa_ops_three , "Altivec floating point arith insns with three args", 0x00050103, }, #endif /* defined (HAS_ALTIVEC) */ #if defined (HAS_ALTIVEC) { tests_afa_ops_one , "Altivec floating point arith insns with one arg", 0x00050101, }, #endif /* defined (HAS_ALTIVEC) */ #if defined (HAS_ALTIVEC) { tests_afc_ops_two , "Altivec floating point compare insns", 0x00050302, }, #endif /* defined (HAS_ALTIVEC) */ #if defined (HAS_ALTIVEC) { tests_afcr_ops_two , "Altivec floating point compare insns with flags update", 0x01050302, }, #endif /* defined (HAS_ALTIVEC) */ #if defined (HAS_ALTIVEC) { tests_av_float_ops_spe, "Altivec float special insns", 0x00050207, }, #endif /* defined (HAS_ALTIVEC) */ { tests_dcbt, "Miscellaneous test: Data cache insns", 0x0006070C, }, #if defined (IS_PPC405) { tests_p4m_ops_two , "PPC 405 mac insns with three args", 0x00030102, }, #endif /* defined (IS_PPC405) */ #if defined (IS_PPC405) { tests_p4mc_ops_two , "PPC 405 mac insns with three args with flags update", 0x01030102, }, #endif /* defined (IS_PPC405) */ { NULL, NULL, 0x00000000, }, }; /* -------------- END #include "ops-ppc.c" -------------- */ static int verbose = 0; static int arg_list_size = 0; static double *fargs = NULL; static int nb_fargs = 0; static int nb_normal_fargs = 0; static HWord_t *iargs = NULL; static int nb_iargs = 0; static uint16_t *ii16 = NULL; static int nb_ii16 = 0; #if defined (HAS_ALTIVEC) static vector unsigned int* viargs = NULL; static int nb_viargs = 0; static vector float* vfargs = NULL; static int nb_vfargs = 0; //#define TEST_VSCR_SAT #endif static inline void register_farg (void *farg, int s, uint16_t _exp, uint64_t mant) { uint64_t tmp; tmp = ((uint64_t)s << 63) | ((uint64_t)_exp << 52) | mant; *(uint64_t *)farg = tmp; #ifndef __powerpc64__ AB_DPRINTF("%d %03x %013llx => %016llx %0e\n", #else AB_DPRINTF("%d %03x %013lx => %016lx %0e\n", #endif s, _exp, mant, *(uint64_t *)farg, *(double *)farg); } static void build_fargs_table (void) { /* Double precision: * Sign goes from zero to one (1 bit) * Exponent goes from 0 to ((1 << 12) - 1) (11 bits) * Mantissa goes from 1 to ((1 << 52) - 1) (52 bits) * + special values: * +0.0 : 0 0x000 0x0000000000000 => 0x0000000000000000 * -0.0 : 1 0x000 0x0000000000000 => 0x8000000000000000 * +infinity : 0 0x7FF 0x0000000000000 => 0x7FF0000000000000 * -infinity : 1 0x7FF 0x0000000000000 => 0xFFF0000000000000 * +QNaN : 0 0x7FF 0x7FFFFFFFFFFFF => 0x7FF7FFFFFFFFFFFF * -QNaN : 1 0x7FF 0x7FFFFFFFFFFFF => 0xFFF7FFFFFFFFFFFF * +SNaN : 0 0x7FF 0x8000000000000 => 0x7FF8000000000000 * -SNaN : 1 0x7FF 0x8000000000000 => 0xFFF8000000000000 * (8 values) * Ref only: * Single precision * Sign: 1 bit * Exponent: 8 bits * Mantissa: 23 bits * +0.0 : 0 0x00 0x000000 => 0x00000000 * -0.0 : 1 0x00 0x000000 => 0x80000000 * +infinity : 0 0xFF 0x000000 => 0x7F800000 * -infinity : 1 0xFF 0x000000 => 0xFF800000 * +QNaN : 0 0xFF 0x3FFFFF => 0x7FBFFFFF * -QNaN : 1 0xFF 0x3FFFFF => 0xFFBFFFFF * +SNaN : 0 0xFF 0x400000 => 0x7FC00000 * -SNaN : 1 0xFF 0x400000 => 0xFFC00000 */ uint64_t mant; uint16_t _exp, e0, e1; int s; int i=0; /* Note: VEX isn't so hot with denormals, so don't bother testing them: set _exp > 0 */ if ( arg_list_size == 1 ) { // Large fargs = malloc(200 * sizeof(double)); for (s=0; s<2; s++) { for (e0=0; e0<2; e0++) { for (e1=0x001; ; e1 = ((e1 + 1) << 2) + 6) { if (e1 >= 0x400) e1 = 0x3fe; _exp = (e0 << 10) | e1; for (mant = 0x0000000000001ULL; mant < (1ULL << 52); /* Add 'random' bits */ mant = ((mant + 0x4A6) << 13) + 0x359) { register_farg(&fargs[i++], s, _exp, mant); } if (e1 == 0x3fe) break; } } } } else { // Default fargs = malloc(16 * sizeof(double)); for (s=0; s<2; s++) { // x2 // for (e0=0; e0<2; e0++) { for (e1=0x001; ; e1 = ((e1 + 1) << 13) + 7) { // x2 // for (e1=0x001; ; e1 = ((e1 + 1) << 5) + 7) { // x3 if (e1 >= 0x400) e1 = 0x3fe; // _exp = (e0 << 10) | e1; _exp = e1; for (mant = 0x0000000000001ULL; mant < (1ULL << 52); /* Add 'random' bits */ mant = ((mant + 0x4A6) << 29) + 0x359) { // x2 register_farg(&fargs[i++], s, _exp, mant); } if (e1 == 0x3fe) break; } // } } } /* To iterate over non-special values only */ nb_normal_fargs = i; /* Special values */ /* +0.0 : 0 0x000 0x0000000000000 */ s = 0; _exp = 0x000; mant = 0x0000000000000ULL; register_farg(&fargs[i++], s, _exp, mant); /* -0.0 : 1 0x000 0x0000000000000 */ s = 1; _exp = 0x000; mant = 0x0000000000000ULL; register_farg(&fargs[i++], s, _exp, mant); /* +infinity : 0 0x7FF 0x0000000000000 */ s = 0; _exp = 0x7FF; mant = 0x0000000000000ULL; register_farg(&fargs[i++], s, _exp, mant); /* -infinity : 1 0x7FF 0x0000000000000 */ s = 1; _exp = 0x7FF; mant = 0x0000000000000ULL; register_farg(&fargs[i++], s, _exp, mant); /* +QNaN : 0 0x7FF 0x7FFFFFFFFFFFF */ s = 0; _exp = 0x7FF; mant = 0x7FFFFFFFFFFFFULL; register_farg(&fargs[i++], s, _exp, mant); /* -QNaN : 1 0x7FF 0x7FFFFFFFFFFFF */ s = 1; _exp = 0x7FF; mant = 0x7FFFFFFFFFFFFULL; register_farg(&fargs[i++], s, _exp, mant); /* +SNaN : 0 0x7FF 0x8000000000000 */ s = 0; _exp = 0x7FF; mant = 0x8000000000000ULL; register_farg(&fargs[i++], s, _exp, mant); /* -SNaN : 1 0x7FF 0x8000000000000 */ s = 1; _exp = 0x7FF; mant = 0x8000000000000ULL; register_farg(&fargs[i++], s, _exp, mant); AB_DPRINTF("Registered %d fargs values\n", i); nb_fargs = i; } static void build_iargs_table (void) { uint64_t tmp; int i=0; #ifndef __powerpc64__ if (arg_list_size == 1) { // Large iargs = malloc(400 * sizeof(HWord_t)); for (tmp=0; ; tmp = tmp + 1 + (tmp >> 1)) { if (tmp >= 0x100000000ULL) tmp = 0xFFFFFFFF; iargs[i++] = (HWord_t)tmp; AB_DPRINTF("val %08x\n", (HWord_t)tmp); if (tmp == 0xFFFFFFFF) break; } } else { // Default iargs = malloc(10 * sizeof(HWord_t)); // for (tmp = 0; ; tmp = 71*tmp + 1 + (tmp>>1)) { // gives 8 // for (tmp = 0; ; tmp = 100000*tmp + 1 + (tmp>>1)) { // gives 4 for (tmp=0; ; tmp = 999999*tmp + 999999) { // gives 3 if (tmp >= 0x100000000ULL) tmp = 0xFFFFFFFF; iargs[i++] = (HWord_t)tmp; AB_DPRINTF("val %08x\n", (HWord_t)tmp); if (tmp == 0xFFFFFFFF) break; } } #else if (arg_list_size == 1) { // Large iargs = malloc(800 * sizeof(HWord_t)); for (tmp=0; ; tmp = 2*tmp + 1 + (tmp >> 2)) { if ((long)tmp < 0 ) tmp = 0xFFFFFFFFFFFFFFFFULL; iargs[i++] = tmp; AB_DPRINTF("val %016lx\n", tmp); if (tmp == 0xFFFFFFFFFFFFFFFFULL) break; } } else { // Default iargs = malloc(20 * sizeof(HWord_t)); // for (tmp=0; ; tmp = 9999*tmp + 999999) { // gives 6 for (tmp = 0; ; tmp = 123456789*tmp + 123456789999) { // gives 3 if ((long)tmp < 0 ) tmp = 0xFFFFFFFFFFFFFFFFULL; iargs[i++] = tmp; AB_DPRINTF("val %016lx\n", tmp); if (tmp == 0xFFFFFFFFFFFFFFFFULL) break; } } #endif // #ifndef __powerpc64__ AB_DPRINTF("Registered %d iargs values\n", i); nb_iargs = i; } static void build_ii16_table (void) { uint32_t tmp; int i=0; if (arg_list_size == 1) { // Large ii16 = malloc(200 * sizeof(uint32_t)); for (tmp=0; ; tmp = tmp + 1 + (tmp >> 2)) { if (tmp >= 0x10000) tmp = 0xFFFF; ii16[i++] = tmp; AB_DPRINTF("val %04x\n", tmp); if (tmp == 0xFFFF) break; } } else { // Default ii16 = malloc(10 * sizeof(uint32_t)); for (tmp=0; ; tmp = 999*tmp + 999) { // gives 3 if (tmp >= 0x10000) tmp = 0xFFFF; ii16[i++] = tmp; AB_DPRINTF("val %04x\n", tmp); if (tmp == 0xFFFF) break; } } AB_DPRINTF("Registered %d ii16 values\n", i); nb_ii16 = i; } #if defined (HAS_ALTIVEC) static void build_viargs_table (void) { #if !defined (ALTIVEC_ARGS_LARGE) unsigned int i=2; viargs = memalign16(i * sizeof(vector unsigned int)); viargs[0] = (vector unsigned int) { 0x01020304,0x05060708,0x090A0B0C,0x0E0D0E0F }; AB_DPRINTF_VEC32x4( viargs[0] ); viargs[1] = (vector unsigned int) { 0xF1F2F3F4,0xF5F6F7F8,0xF9FAFBFC,0xFEFDFEFF }; AB_DPRINTF_VEC32x4( viargs[1] ); #else unsigned int i,j; // build from iargs table (large/default already set) viargs = malloc(nb_iargs * sizeof(vector unsigned int)); for (i=0; i %08x %0e\n", s, _exp, mant, *((uint32_t*)&tmp), *(float*)&tmp); } static void build_vfargs_table (void) { /* Sign goes from zero to one * Exponent goes from 0 to ((1 << 9) - 1) * Mantissa goes from 1 to ((1 << 24) - 1) * + special values: * +0.0 : 0 0x00 0x000000 => 0x00000000 * -0.0 : 1 0x00 0x000000 => 0x80000000 * +infinity : 0 0xFF 0x000000 => 0x7F800000 * -infinity : 1 0xFF 0x000000 => 0xFF800000 * +SNaN : 0 0xFF 0x7FFFFF (non-zero) => 0x7FFFFFFF * -SNaN : 1 0xFF 0x7FFFFF (non-zero) => 0xFFFFFFFF * +QNaN : 0 0xFF 0x3FFFFF (non-zero) => 0x7FBFFFFF * -QNaN : 1 0xFF 0x3FFFFF (non-zero) => 0xFFBFFFFF * (8 values) */ uint32_t mant; uint16_t _exp; int s; int i=0; #if !defined (ALTIVEC_ARGS_LARGE) nb_vfargs = 12; vfargs = memalign16(nb_vfargs * sizeof(vector float)); // 4 values: for (s=0; s<2; s++) { for (_exp=0x5; ; _exp += 0x9D ) { if (_exp > 0xDF) break; for (mant = 0x3FFFFF; mant < 0x7FFFFF; mant = /* random */ ((mant + 0x1A6) << 31) + 0x159) { register_vfarg(&vfargs[i++], s, (uint8_t)_exp, mant); } } } #else nb_vfargs = 50; vfargs = memalign16(nb_vfargs * sizeof(vector float)); for (s=0; s<2; s++) { for (_exp=0x0; ; _exp += 0x3F ) { // for (_exp=0; ; _exp = ((_exp + 1) << 1) + 3) { if (_exp >= 0xFE) _exp = 0xFE; for (mant = 0x0; mant < 0x7FFFFF; mant = /* random */ ((mant + 0x4A6) << 5) + 0x359) { register_vfarg(&vfargs[i++], s, (uint8_t)_exp, mant); } if (_exp >= 0xFE) break; } } #endif /* Special values */ /* +0.0 : 0 0x00 0x000000 */ s = 0; _exp = 0x00; mant = 0x000000; register_vfarg(&vfargs[i++], s, _exp, mant); /* -0.0 : 1 0x00 0x000000 */ s = 1; _exp = 0x00; mant = 0x000000; register_vfarg(&vfargs[i++], s, _exp, mant); /* +infinity : 0 0xFF 0x000000 */ s = 0; _exp = 0xFF; mant = 0x000000; register_vfarg(&vfargs[i++], s, _exp, mant); /* -infinity : 1 0xFF 0x000000 */ s = 1; _exp = 0xFF; mant = 0x000000; register_vfarg(&vfargs[i++], s, _exp, mant); /* NaN: _exponent all 1s, non-zero fraction */ /* SNaN is a NaN with the most significant fraction bit clear.*/ /* +SNaN : 0 0xFF 0x7FFFFF */ s = 0; _exp = 0xFF; mant = 0x7FFFFF; register_vfarg(&vfargs[i++], s, _exp, mant); /* -SNaN : 1 0xFF 0x7FFFFF */ s = 1; _exp = 0xFF; mant = 0x7FFFFF; register_vfarg(&vfargs[i++], s, _exp, mant); /* QNaN is a NaN with the most significant fraction bit set */ /* +QNaN : 0 0xFF 0x3F0000 */ s = 0; _exp = 0xFF; mant = 0x3FFFFF; register_vfarg(&vfargs[i++], s, _exp, mant); /* -QNaN : 1 0xFF 0x3F0000 */ s = 1; _exp = 0xFF; mant = 0x3FFFFF; register_vfarg(&vfargs[i++], s, _exp, mant); AB_DPRINTF("Registered %d vfargs values\n", i); assert(i <= nb_vfargs); nb_vfargs = i; } #endif #if 0 static void dump_iargs (void) { int i; for (i = 0; i < nb_iargs; i++) { printf("iarg %d: %08x %08x %08x\n", i, iargs[i], (unsigned int)&iargs[i], (unsigned int)iargs); } } static void dump_iargs16 (void) { int i; for (i = 0; i < nb_ii16; i++) { printf("iarg16 %d: %08x %08x %08x\n", i, ii16[i], (unsigned int)&ii16[i], (unsigned int)ii16); } } static void dump_vfargs (void) { vector float vf; float f; int i=0; for (i=0; i %08x (%08x %08x)\n", #else printf("%s %016llx, %016llx, %016llx => %016llx (%08x %08x)\n", #endif name, iargs[i], iargs[j], iargs[k], res, flags, xer); } if (verbose) printf("\n"); } } } static void test_int_two_args (const char* name, test_func_t func, uint32_t test_flags) { volatile HWord_t res; volatile uint32_t flags, xer, xer_orig; int i, j, is_div; #ifdef __powerpc64__ int zap_hi32; #endif // catches div, divwu, divo, divwu, divwuo, and . variants is_div = strstr(name, "divw") != NULL; #ifdef __powerpc64__ zap_hi32 = strstr(name, "mulhw") != NULL; #endif xer_orig = 0x00000000; redo: for (i=0; i %08x (%08x %08x)\n", #else if (zap_hi32) res &= 0xFFFFFFFFULL; printf("%s %016llx, %016llx => %016llx (%08x %08x)\n", #endif name, iargs[i], iargs[j], res, flags, xer); } if (verbose) printf("\n"); } if ((test_flags & PPC_XER_CA) && xer_orig == 0x00000000) { xer_orig = 0x20000000; goto redo; } } static void test_int_one_arg (const char* name, test_func_t func, uint32_t test_flags) { volatile HWord_t res; volatile uint32_t flags, xer, xer_orig; int i; xer_orig = 0x00000000; redo: for (i=0; i %08x (%08x %08x)\n", #else printf("%s %016llx => %016llx (%08x %08x)\n", #endif name, iargs[i], res, flags, xer); } if ((test_flags & PPC_XER_CA) && xer_orig == 0x00000000) { xer_orig = 0x20000000; goto redo; } } static inline void invalidate_icache ( void *ptr, int nbytes ) { HWord_t startaddr = (HWord_t) ptr; HWord_t endaddr = startaddr + nbytes; HWord_t cls = 32; /*VG_(cache_line_size_ppc32);*/ HWord_t addr; startaddr &= ~(cls - 1); for (addr = startaddr; addr < endaddr; addr += cls) asm volatile("dcbst 0,%0" : : "r" (addr)); asm volatile("sync"); for (addr = startaddr; addr < endaddr; addr += cls) asm volatile("icbi 0,%0" : : "r" (addr)); asm volatile("sync; isync"); } /* for god knows what reason, if this isn't inlined, the program segfaults. */ static inline void _patch_op_imm (uint32_t *p_insn, uint16_t imm, int sh, int len) { uint32_t mask = ((1 << len) - 1) << sh; *p_insn = (*p_insn & ~mask) | ((imm< %08x (%08x %08x)\n", #else printf("%s %016llx, %08x => %016llx (%08x %08x)\n", #endif name, iargs[i], ii16[j], res, flags, xer); } if (verbose) printf("\n"); } } /* Special test cases for: * rlwimi * rlwinm * rlwnm * srawi * mcrf * mcrfs * mcrxr_cb * mfcr_cb * mfspr_cb * mftb_cb * mtcrf_cb * mtspr_cb __powerpc64__ only: * rldcl rA,rS,SH,MB * rldcr rA,rS,SH,ME * rldic rA,rS,SH,MB * rldicl rA,rS,SH,MB * rldicr rA,rS,SH,ME * rldimi rA,rS,SH,MB * sradi rA,rS,SH */ static void rlwi_cb (const char* name, test_func_t func_IN, unused uint32_t test_flags) { volatile test_func_t func; uint32_t* func_buf = get_rwx_area(); volatile HWord_t res; volatile uint32_t flags, xer; int i, j, k, l, arg_step; arg_step = (arg_list_size == 0) ? 31 : 3; r17 = 0; // rlwimi takes r17 as input: start with a clean slate. for (i=0; i %08x (%08x %08x)\n", #else printf("%s %016llx, %2d, %2d, %2d => %016llx (%08x %08x)\n", #endif name, iargs[i], j, k, l, res, flags, xer); } if (verbose) printf("\n"); } } } } static void rlwnm_cb (const char* name, test_func_t func_IN, unused uint32_t test_flags) { volatile test_func_t func; uint32_t* func_buf = get_rwx_area(); volatile HWord_t res; volatile uint32_t flags, xer; int i, j, k, l, arg_step; arg_step = (arg_list_size == 0) ? 31 : 3; for (i=0; i %08x (%08x %08x)\n", #else printf("%s %016llx, %016llx, %2d, %2d => %016llx (%08x %08x)\n", #endif name, iargs[i], iargs[j], k, l, res, flags, xer); } if (verbose) printf("\n"); } } } } static void srawi_cb (const char* name, test_func_t func_IN, unused uint32_t test_flags) { volatile test_func_t func; uint32_t* func_buf = get_rwx_area(); volatile HWord_t res; volatile uint32_t flags, xer; int i, j, arg_step; arg_step = (arg_list_size == 0) ? 31 : 1; for (i=0; i %08x (%08x %08x)\n", #else printf("%s %016llx, %2d => %016llx (%08x %08x)\n", #endif name, iargs[i], j, res, flags, xer); } if (verbose) printf("\n"); } } static void mcrf_cb (const char* name, test_func_t func_IN, unused uint32_t test_flags) { volatile test_func_t func; uint32_t* func_buf = get_rwx_area(); volatile uint32_t flags, xer; int i, j, k, arg_step; arg_step = (arg_list_size == 0) ? 7 : 1; for (i=0; i (%08x %08x)\n", #else printf("%s %d, %d (%016llx) => (%08x %08x)\n", #endif name, j, k, iargs[i], flags, xer); } if (verbose) printf("\n"); } } } static void mcrxr_cb (const char* name, test_func_t func_IN, unused uint32_t test_flags) { volatile test_func_t func; uint32_t* func_buf = get_rwx_area(); volatile uint32_t flags, xer; int i, j, k, arg_step; arg_step = 1; //(arg_list_size == 0) ? 7 : 1; for (i=0; i<16; i+=arg_step) { j = i << 28; for (k=0; k<8; k+=arg_step) { /* Patch up the instruction */ func = init_function( func_IN, func_buf ); patch_op_imm(&func_buf[0], k, 23, 3); r14 = j; SET_CR_ZERO; SET_XER(r14); (*func)(); GET_CR_XER(flags,xer); printf("%s %d (%08x) => (%08x %08x)\n", name, k, j, flags, xer); } if (verbose) printf("\n"); } } static void mfcr_cb (const char* name, test_func_t func, unused uint32_t test_flags) { volatile HWord_t res; volatile uint32_t flags, xer; int i; for (i=0; i %08x (%08x %08x)\n", #else printf("%s (%016llx) => %016llx (%08x %08x)\n", #endif name, iargs[i], res, flags, xer); } } // NOTE: Not using func: calling function kills lr static void mfspr_cb (const char* name, test_func_t func, unused uint32_t test_flags) { //volatile uint32_t res, flags, xer, ctr, lr, tmpcr, tmpxer; volatile HWord_t res; int j, k; func = func; // just to stop compiler complaining // mtxer followed by mfxer for (k=0; k mtxer -> mfxer => %08x\n", #else printf("%s 1 (%08x) -> mtxer -> mfxer => %016llx\n", #endif name, j, res); } // mtlr followed by mflr for (k=0; k mtlr -> mflr => %08x\n", #else printf("%s 8 (%08x) -> mtlr -> mflr => %016llx\n", #endif name, j, res); } // mtctr followed by mfctr for (k=0; k mtctr -> mfctr => %08x\n", #else printf("%s 9 (%08x) -> mtctr -> mfctr => %016llx\n", #endif name, j, res); } } static void mtcrf_cb (const char* name, test_func_t func_IN, unused uint32_t test_flags) { volatile test_func_t func; uint32_t* func_buf = get_rwx_area(); volatile uint32_t flags, xer; int i, j, arg_step; arg_step = (arg_list_size == 0) ? 99 : 1; for (i=0; i (%08x %08x)\n", #else printf("%s %3d, %016llx => (%08x %08x)\n", #endif name, j, iargs[i], flags, xer); } if (verbose) printf("\n"); } } // NOTE: Not using func: calling function kills lr static void mtspr_cb (const char* name, test_func_t func, unused uint32_t test_flags) { } #ifdef __powerpc64__ static void rldc_cb (const char* name, test_func_t func_IN, unused uint32_t test_flags) { volatile test_func_t func; uint32_t* func_buf = get_rwx_area(); volatile HWord_t res; volatile uint32_t flags, xer; int i, j, k, arg_step; arg_step = (arg_list_size == 0) ? 7 : 3; for (i=0; i>5)&1)), 5, 6); r14 = iargs[i]; r15 = iargs[j]; SET_CR_XER_ZERO; (*func)(); GET_CR_XER(flags,xer); res = r17; printf("%s %016llx, %016llx, %2d => %016llx (%08x %08x)\n", name, iargs[i], iargs[j], k, res, flags, xer); } if (verbose) printf("\n"); } } } static void rldi_cb (const char* name, test_func_t func_IN, unused uint32_t test_flags) { volatile test_func_t func; uint32_t* func_buf = get_rwx_area(); volatile HWord_t res; volatile uint32_t flags, xer; int i, j, k, arg_step; arg_step = (arg_list_size == 0) ? 7 : 3; for (i=0; i>5)&1), 1, 1); patch_op_imm(&func_buf[0], (((k & 0x1F)<<1) | ((k>>5)&1)), 5, 6); r14 = iargs[i]; SET_CR_XER_ZERO; (*func)(); GET_CR_XER(flags,xer); res = r17; printf("%s %016llx, %2d, %2d => %016llx (%08x %08x)\n", name, iargs[i], j, k, res, flags, xer); } if (verbose) printf("\n"); } } } static void sradi_cb (const char* name, test_func_t func_IN, unused uint32_t test_flags) { volatile test_func_t func; uint32_t* func_buf = get_rwx_area(); volatile HWord_t res; volatile uint32_t flags, xer; int i, j, arg_step; arg_step = (arg_list_size == 0) ? 7 : 3; for (i=0; i>5)&1), 1, 1); r14 = iargs[i]; SET_CR_XER_ZERO; (*func)(); GET_CR_XER(flags,xer); res = r17; printf("%s %016llx, %2d => %016llx (%08x %08x)\n", name, iargs[i], j, res, flags, xer); } if (verbose) printf("\n"); } } #endif // #ifdef __powerpc64__ typedef struct special_t special_t; struct special_t { const char *name; void (*test_cb)(const char* name, test_func_t func, unused uint32_t test_flags); }; static void test_special (special_t *table, const char* name, test_func_t func, unused uint32_t test_flags) { const char *tmp; int i; for (tmp = name; isspace(*tmp); tmp++) continue; for (i=0; table[i].name != NULL; i++) { #if 0 fprintf(stderr, "look for handler for '%s' (%s)\n", name, table[i].name); #endif if (strcmp(table[i].name, tmp) == 0) { (*table[i].test_cb)(name, func, test_flags); return; } } fprintf(stderr, "ERROR: no test found for op '%s'\n", name); } static special_t special_int_ops[] = { { "rlwimi", /* One register + 3 5 bits immediate arguments */ &rlwi_cb, }, { "rlwimi.", /* One register + 3 5 bits immediate arguments */ &rlwi_cb, }, { "rlwinm", /* One register + 3 5 bits immediate arguments */ &rlwi_cb, }, { "rlwinm.", /* One register + 3 5 bits immediate arguments */ &rlwi_cb, }, { "rlwnm", /* Two registers + 2 5 bits immediate arguments */ &rlwnm_cb, }, { "rlwnm.", /* Two registers + 2 5 bits immediate arguments */ &rlwnm_cb, }, { "srawi", /* One register + 1 5 bits immediate arguments */ &srawi_cb, }, { "srawi.", /* One register + 1 5 bits immediate arguments */ &srawi_cb, }, { "mcrf", /* 2 3 bits immediate arguments */ &mcrf_cb, }, #if 0 { "mcrfs", /* 2 3 bits immediate arguments */ &mcrfs_cb, }, #endif { "mcrxr", /* 1 3 bits immediate argument */ &mcrxr_cb, }, { "mfcr", /* No arguments */ &mfcr_cb, }, { "mfspr", /* 1 10 bits immediate argument */ &mfspr_cb, }, #if 0 { // Move from time base "mftb", /* 1 10 bits immediate arguments */ &mftb_cb, }, #endif { "mtcrf", /* One register + 1 8 bits immediate arguments */ &mtcrf_cb, }, { "mtspr", /* One register + 1 10 bits immediate arguments */ &mtspr_cb, }, #ifdef __powerpc64__ { "rldcl", /* Two registers + 1 6 bit immediate argument */ &rldc_cb, }, { "rldcl.", /* Two registers + 1 6 bit immediate argument */ &rldc_cb, }, { "rldcr", /* Two registers + 1 6 bit immediate argument */ &rldc_cb, }, { "rldcr.", /* Two registers + 1 6 bit immediate argument */ &rldc_cb, }, { "rldic", /* One register + 2 6 bit immediate arguments */ &rldi_cb, }, { "rldic.", /* One register + 2 6 bit immediate arguments */ &rldi_cb, }, { "rldicl", /* One register + 2 6 bit immediate arguments */ &rldi_cb, }, { "rldicl.", /* One register + 2 6 bit immediate arguments */ &rldi_cb, }, { "rldicr", /* One register + 2 6 bit immediate arguments */ &rldi_cb, }, { "rldicr.", /* One register + 2 6 bit immediate arguments */ &rldi_cb, }, { "rldimi", /* One register + 2 6 bit immediate arguments */ &rldi_cb, }, { "rldimi.", /* One register + 2 6 bit immediate arguments */ &rldi_cb, }, { "sradi", /* One register + 1 6 bit immediate argument */ &sradi_cb, }, { "sradi.", /* One register + 1 6 bit immediate argument */ &sradi_cb, }, #endif // #ifdef __powerpc64__ { NULL, NULL, }, }; static void test_int_special (const char* name, test_func_t func, uint32_t test_flags) { test_special(special_int_ops, name, func, test_flags); } static void test_int_ld_one_reg_imm16 (const char* name, test_func_t func_IN, unused uint32_t test_flags) { volatile test_func_t func; uint32_t* func_buf = get_rwx_area(); volatile HWord_t res, base; volatile uint32_t flags, xer; int i, offs, shift_offset = 0; #ifdef __powerpc64__ if (strstr(name, "lwa") || strstr(name, "ld") || strstr(name, "ldu")) shift_offset = 1; #endif // +ve d base = (HWord_t)&iargs[0]; for (i=0; i>2, 2, 14); else patch_op_imm16(&func_buf[0], offs); r14 = base; SET_CR_XER_ZERO; (*func)(); GET_CR_XER(flags,xer); res = r17; #ifndef __powerpc64__ printf("%s %2d, (%08x) => %08x, %2d (%08x %08x)\n", #else printf("%s %3d, (%016llx) => %016llx, %3lld (%08x %08x)\n", #endif name, offs, iargs[i], res, r14-base, flags, xer); } if (verbose) printf("\n"); // -ve d base = (HWord_t)&iargs[nb_iargs-1]; for (i = 0; i > -nb_iargs; i--) { offs = (i * sizeof(HWord_t)) + 1; /* Patch up the instruction */ func = init_function( func, func_buf ); patch_op_imm16(&func_buf[0], offs); r14 = base; SET_CR_XER_ZERO; (*func)(); GET_CR_XER(flags,xer); res = r17; #ifndef __powerpc64__ printf("%s %2d, (%08x) => %08x, %2d (%08x %08x)\n", #else printf("%s %3d, (%016llx) => %016llx, %3lld (%08x %08x)\n", #endif name, offs, iargs[nb_iargs-1 + i], res, r14-base, flags, xer); } } static void test_int_ld_two_regs (const char* name, test_func_t func, unused uint32_t test_flags) { volatile HWord_t res, base; volatile uint32_t flags, xer; int i, offs; // +ve d base = (HWord_t)&iargs[0]; for (i=0; i %08x, %d (%08x %08x)\n", #else printf("%s %3d, (%016llx) => %016llx, %2lld (%08x %08x)\n", #endif name, offs, iargs[i], res, r14-base, flags, xer); } } static void test_int_st_two_regs_imm16 (const char* name, test_func_t func_IN, unused uint32_t test_flags) { volatile test_func_t func; uint32_t* func_buf = get_rwx_area(); volatile uint32_t flags, xer; int i, offs, k; HWord_t *iargs_priv, base; // private iargs table to store to iargs_priv = malloc(nb_iargs * sizeof(HWord_t)); // +ve d base = (HWord_t)&iargs_priv[0]; for (i=0; i %08x, %2d (%08x %08x)\n", #else printf("%s %016llx, %3d => %016llx, %3lld (%08x %08x)\n", #endif name, iargs[i], offs, iargs_priv[i], r15-base, flags, xer); } if (verbose) printf("\n"); // -ve d base = (HWord_t)&iargs_priv[nb_iargs-1]; for (i = -nb_iargs+1; i<=0; i++) { for (k=0; k %08x, %2d (%08x %08x)\n", #else printf("%s %016llx, %3d => %016llx, %3lld (%08x %08x)\n", #endif name, iargs[nb_iargs-1+i], offs, iargs_priv[nb_iargs-1+i], r15-base, flags, xer); } free(iargs_priv); } static void test_int_st_three_regs (const char* name, test_func_t func, unused uint32_t test_flags) { volatile uint32_t flags, xer; int i, offs, k; HWord_t *iargs_priv, base; // private iargs table to store to iargs_priv = malloc(nb_iargs * sizeof(HWord_t)); base = (HWord_t)&iargs_priv[0]; for (i=0; i %08x, %d (%08x %08x)\n", #else printf("%s %016llx, %3d => %016llx, %2lld (%08x %08x)\n", #endif name, iargs[i], offs, iargs_priv[i], r15-base, flags, xer); } free(iargs_priv); } /* Used in do_tests, indexed by flags->nb_args Elements correspond to enum test_flags::num args */ static test_loop_t int_loops[] = { &test_int_one_arg, &test_int_two_args, &test_int_three_args, &test_int_two_args, &test_int_one_reg_imm16, &test_int_one_reg_imm16, &test_int_special, &test_int_ld_one_reg_imm16, &test_int_ld_two_regs, &test_int_st_two_regs_imm16, &test_int_st_three_regs, }; static void test_dcbt_ops (const char* name, test_func_t func, unused uint32_t test_flags) { unsigned long * data = (unsigned long *)malloc(4096 * sizeof(unsigned long)); HWord_t base; base = (HWord_t)data; size_t offs = 100 * sizeof(unsigned long); // some arbitrary offset) r17 = base; r14 = offs; (*func)(); printf("%s with various hint values completes with no exceptions\n", name); free(data); } static test_loop_t misc_loops[] = { &test_dcbt_ops, }; #if !defined (NO_FLOAT) static void test_float_three_args (const char* name, test_func_t func, unused uint32_t test_flags) { double res; uint64_t u0, u1, u2, ur; volatile uint32_t flags; int i, j, k; /* Note: using nb_normal_fargs: - not testing special values for these insns */ for (i=0; i %016llx", #else printf("%s %016llx, %016llx, %016llx => %016llx", #endif name, u0, u1, u2, ur); #if defined TEST_FLOAT_FLAGS printf(" (%08x)", flags); #endif printf("\n"); } if (verbose) printf("\n"); } } } static void test_float_two_args (const char* name, test_func_t func, unused uint32_t test_flags) { double res; uint64_t u0, u1, ur; volatile uint32_t flags; int i, j; for (i=0; i %016llx", #else printf("%s %016llx, %016llx => %016llx", #endif name, u0, u1, ur); #if defined TEST_FLOAT_FLAGS printf(" (%08x)", flags); #endif printf("\n"); } if (verbose) printf("\n"); } } static void test_float_one_arg (const char* name, test_func_t func, unused uint32_t test_flags) { double res; uint64_t u0, ur; volatile uint32_t flags; int i; unsigned zap_hi_32bits, zap_lo_44bits, zap_lo_47bits; /* if we're testing fctiw or fctiwz, zap the hi 32bits, as they're undefined */ zap_hi_32bits = strstr(name, " fctiw") != NULL ? 1 : 0; zap_lo_44bits = strstr(name, " fres") != NULL ? 1 : 0; zap_lo_47bits = strstr(name, " frsqrte") != NULL ? 1 : 0; assert(zap_hi_32bits + zap_lo_44bits + zap_lo_47bits <= 1); for (i=0; i %016llx", #else printf("%s %016llx => %016llx", #endif name, u0, ur); #if defined TEST_FLOAT_FLAGS printf(" (%08x)", flags); #endif printf("\n"); } } /* Special test cases for: * mffs * mtfsb0 * mtfsb1 */ static special_t special_float_ops[] = { #if 0 { "mffs", /* One 5 bits immediate argument */ &mffs_cb, }, { "mffs.", /* One 5 bits immediate argument */ &mffs_cb, }, { "mtfsb0", /* One 5 bits immediate argument */ &mffs_cb, }, { "mtfsb0.", /* One 5 bits immediate argument */ &mffs_cb, }, { "mtfsb1", /* One 5 bits immediate argument */ &mffs_cb, }, { "mtfsb1.", /* One 5 bits immediate argument */ &mffs_cb, }, { "mtfsf", /* One register + 1 8 bits immediate argument */ &mtfsf_cb, }, { "mtfsf.", /* One register + 1 8 bits immediate argument */ &mtfsf_cb, }, { "mtfsfi", /* One 5 bits argument + 1 5 bits argument */ &mtfsfi_cb, }, { "mtfsfi.", /* One 5 bits argument + 1 5 bits argument */ &mtfsfi_cb, }, #endif { NULL, NULL, }, }; static void test_float_special (const char* name, test_func_t func, uint32_t test_flags) { test_special(special_float_ops, name, func, test_flags); } static void test_float_ld_one_reg_imm16 (const char* name, test_func_t func_IN, unused uint32_t test_flags) { volatile test_func_t func; uint32_t* func_buf = get_rwx_area(); HWord_t base; volatile uint32_t flags, xer; volatile double src, res; int i; uint16_t offs; /* offset within [1-nb_fargs:nb_fargs] */ for (i=1-nb_fargs; i r14 + offs r14 = base; SET_CR_XER_ZERO; (*func)(); GET_CR_XER(flags,xer); res = f17; #ifndef __powerpc64__ printf("%s %016llx, %4d => %016llx, %4d", #else printf("%s %016llx, %4d => %016llx, %4lld", #endif name, double_to_bits(src), offs, double_to_bits(res), r14-base); #if defined TEST_FLOAT_FLAGS printf(" (%08x %08x)", flags, xer); #endif printf("\n"); } if (verbose) printf("\n"); } static void test_float_ld_two_regs (const char* name, test_func_t func, unused uint32_t test_flags) { volatile HWord_t base; volatile uint32_t flags, xer; volatile double src, res; int i, offs; /* offset within [1-nb_fargs:nb_fargs] */ for (i=1-nb_fargs; i %016llx, %4d", #else printf("%s %016llx, %4lld => %016llx, %4lld", #endif name, double_to_bits(src), r15/*offs*/, double_to_bits(res), r14-base); #if defined TEST_FLOAT_FLAGS printf(" (%08x %08x)", flags, xer); #endif printf("\n"); } } static void test_float_st_two_regs_imm16 (const char* name, test_func_t func_IN, unused uint32_t test_flags) { volatile test_func_t func; uint32_t* func_buf = get_rwx_area(); HWord_t base; volatile uint32_t flags, xer; double src, *p_dst; int i, offs; double *fargs_priv; int nb_tmp_fargs = nb_fargs; /* if we're storing an fp single-precision, don't want nans - the vex implementation doesn't like them (yet) Note: This is actually a bigger problem: the vex implementation rounds these insns twice. This leads to many rounding errors. For the small fargs set, however, this doesn't show up. */ if (strstr(name, "stfs") != NULL) nb_tmp_fargs = nb_normal_fargs; // private fargs table to store to fargs_priv = malloc(nb_tmp_fargs * sizeof(double)); /* offset within [1-nb_tmp_fargs:nb_tmp_fargs] */ for (i=1-nb_tmp_fargs; i f14 // store to fargs_priv[idx] => r15 + offs f14 = src; r15 = base; SET_CR_XER_ZERO; (*func)(); GET_CR_XER(flags,xer); #ifndef __powerpc64__ printf("%s %016llx, %4d => %016llx, %4d", #else printf("%s %016llx, %4d => %016llx, %4lld", #endif name, double_to_bits(src), offs, double_to_bits(*p_dst), r15-base); #if defined TEST_FLOAT_FLAGS printf(" (%08x %08x)", flags, xer); #endif printf("\n"); } free(fargs_priv); } static void test_float_st_three_regs (const char* name, test_func_t func, unused uint32_t test_flags) { volatile HWord_t base; volatile uint32_t flags, xer; double src, *p_dst; int i, offs; double *fargs_priv; int nb_tmp_fargs = nb_fargs; /* if we're storing an fp single-precision, don't want nans - the vex implementation doesn't like them (yet) Note: This is actually a bigger problem: the vex implementation rounds these insns twice. This leads to many rounding errors. For the small fargs set, however, this doesn't show up. */ if (strstr(name, "stfs") != NULL) // stfs(u)(x) nb_tmp_fargs = nb_normal_fargs; // private fargs table to store to fargs_priv = malloc(nb_tmp_fargs * sizeof(double)); // /* offset within [1-nb_tmp_fargs:nb_tmp_fargs] */ // for (i=1-nb_tmp_fargs; i %016llx, %4d", #else printf("%s %016llx, %4lld => %016llx, %4lld", #endif name, double_to_bits(src), r16/*offs*/, double_to_bits(*p_dst), r15-base); #if defined TEST_FLOAT_FLAGS printf(" (%08x %08x)", flags, xer); #endif printf("\n"); #if 0 // print double precision result #ifndef __powerpc64__ printf("%s %016llx (%014e), %4d => %016llx (%014e), %08x (%08x %08x)\n", #else printf("%s %016llx (%014e), %4d => %016llx (%014e), %08x (%08x %08x)\n", #endif name, double_to_bits(src), src, offs, double_to_bits(*p_dst), *p_dst, r15, flags, xer); // print single precision result #ifndef __powerpc64__ printf("%s %016llx (%014e), %4d => %08x (%f), %08x (%08x %08x)\n", #else printf("%s %016llx (%014e), %4d => %08x (%f), %08x (%08x %08x)\n", #endif name, double_to_bits(src), src, offs, (uint32_t)(double_to_bits(*p_dst) >> 32), bits_to_float( (uint32_t)(double_to_bits(*p_dst) >> 32) ), r15, flags, xer); #endif } free(fargs_priv); } /* Used in do_tests, indexed by flags->nb_args Elements correspond to enum test_flags::num args */ static test_loop_t float_loops[] = { &test_float_one_arg, &test_float_two_args, &test_float_three_args, &test_float_two_args, NULL, NULL, &test_float_special, &test_float_ld_one_reg_imm16, &test_float_ld_two_regs, &test_float_st_two_regs_imm16, &test_float_st_three_regs, }; #endif /* !defined (NO_FLOAT) */ #if defined (HAS_ALTIVEC) /* Ref: vector insns to test setting CR, VSCR: volatile vector unsigned int v1 = // (vector unsigned int){ 0xFFFFFFFF,0xFFFFFFFF,0xFFFFFFFF,0xFFFFFFFF }; (vector unsigned int){ 0x80808080,0x80808080,0x80808080,0x80808080 }; volatile vector unsigned int v2 = // (vector unsigned int){ 0xFFFFFFFF,0xFFFFFFFF,0xFFFFFFFF,0xFFFFFFFF }; (vector unsigned int){ 0x01010101,0x01010101,0x01010101,0x01010101 }; //__asm__ __volatile__ ("vcmpequw. 31,%0,%1" : : "v" (v1), "v" (v2)); // sets CR[6] //__asm__ __volatile__ ("vpkswss 31,%0,%1" : : "v" (v1), "v" (v2)); // sets VSCR[SAT] __asm__ __volatile__ ("vsubsbs 31,%0,%1" : : "v" (v1), "v" (v2)); // sets VSCR[SAT] */ //#define DEFAULT_VSCR 0x00010000 #define DEFAULT_VSCR 0x0 static void test_av_int_one_arg (const char* name, test_func_t func, unused uint32_t test_flags) { volatile uint32_t flags, tmpcr; volatile vector unsigned int tmpvscr; volatile vector unsigned int vec_in, vec_out, vscr; unsigned int *src, *dst; int i; #if defined TEST_VSCR_SAT unsigned int* p_vscr; #endif for (i=0; i r14 __asm__ __volatile__ ("vor 14,%0,%0" : : "v" (vec_in)); // do stuff (*func)(); // retrieve output <- r17 __asm__ __volatile__ ("vor %0,17,17" : "=v" (vec_out)); // get CR,VSCR flags __asm__ __volatile__ ("mfcr %0" : "=r" (flags)); __asm__ __volatile__ ("mfvscr %0" : "=v" (vscr)); /* Restore flags */ __asm__ __volatile__ ("mtcr %0" : : "r" (tmpcr)); __asm__ __volatile__ ("mtvscr %0" : : "v" (tmpvscr)); src = (unsigned int*)&vec_in; dst = (unsigned int*)&vec_out; printf("%s: %08x %08x %08x %08x\n", name, src[0], src[1], src[2], src[3]); printf("%s: => %08x %08x %08x %08x ", name, dst[0], dst[1], dst[2], dst[3]); #if defined TEST_VSCR_SAT p_vscr = (unsigned int*)𝓋 printf("(%08x, %08x)\n", flags, p_vscr[3]); #else printf("(%08x)\n", flags); #endif } } static void test_av_int_two_args (const char* name, test_func_t func, unused uint32_t test_flags) { volatile uint32_t flags, tmpcr; volatile vector unsigned int tmpvscr; volatile vector unsigned int vec_in1, vec_in2, vec_out, vscr; unsigned int *src1, *src2, *dst; int i,j; #if defined TEST_VSCR_SAT unsigned int* p_vscr; #endif for (i=0; i r14,r15 __asm__ __volatile__ ("vor 14,%0,%0" : : "v" (vec_in1)); __asm__ __volatile__ ("vor 15,%0,%0" : : "v" (vec_in2)); // do stuff (*func)(); // retrieve output <- r17 __asm__ __volatile__ ("vor %0,17,17" : "=v" (vec_out)); // get CR,VSCR flags __asm__ __volatile__ ("mfcr %0" : "=r" (flags)); __asm__ __volatile__ ("mfvscr %0" : "=v" (vscr)); /* Restore flags */ __asm__ __volatile__ ("mtcr %0" : : "r" (tmpcr)); __asm__ __volatile__ ("mtvscr %0" : : "v" (tmpvscr)); src1 = (unsigned int*)&vec_in1; src2 = (unsigned int*)&vec_in2; dst = (unsigned int*)&vec_out; printf("%s: ", name); printf("%08x%08x%08x%08x, ", src1[0], src1[1], src1[2], src1[3]); printf("%08x%08x%08x%08x\n", src2[0], src2[1], src2[2], src2[3]); printf("%s: => %08x %08x %08x %08x ", name, dst[0], dst[1], dst[2], dst[3]); #if defined TEST_VSCR_SAT p_vscr = (unsigned int*)𝓋 printf("(%08x, %08x)\n", flags, p_vscr[3]); #else printf("(%08x)\n", flags); #endif } if (verbose) printf("\n"); } } static void test_av_int_three_args (const char* name, test_func_t func, unused uint32_t test_flags) { volatile uint32_t flags, tmpcr; volatile vector unsigned int tmpvscr; volatile vector unsigned int vec_in1, vec_in2, vec_in3, vec_out, vscr; unsigned int *src1, *src2, *src3, *dst; int i,j,k; #if defined TEST_VSCR_SAT unsigned int* p_vscr; #endif for (i=0; i r14,r15,r16 __asm__ __volatile__ ("vor 14,%0,%0" : : "v" (vec_in1)); __asm__ __volatile__ ("vor 15,%0,%0" : : "v" (vec_in2)); __asm__ __volatile__ ("vor 16,%0,%0" : : "v" (vec_in3)); // do stuff (*func)(); // retrieve output <- r17 __asm__ __volatile__ ("vor %0,17,17" : "=v" (vec_out)); // get CR,VSCR flags __asm__ __volatile__ ("mfcr %0" : "=r" (flags)); __asm__ __volatile__ ("mfvscr %0" : "=v" (vscr)); /* Restore flags */ __asm__ __volatile__ ("mtcr %0" : : "r" (tmpcr)); __asm__ __volatile__ ("mtvscr %0" : : "v" (tmpvscr)); src1 = (unsigned int*)&vec_in1; src2 = (unsigned int*)&vec_in2; src3 = (unsigned int*)&vec_in3; dst = (unsigned int*)&vec_out; printf("%s: %08x%08x%08x%08x, %08x%08x%08x%08x, %08x%08x%08x%08x\n", name, src1[0], src1[1], src1[2], src1[3], src2[0], src2[1], src2[2], src2[3], src3[0], src3[1], src3[2], src3[3]); printf("%s: => %08x%08x%08x%08x ", name, dst[0], dst[1], dst[2], dst[3]); #if defined TEST_VSCR_SAT p_vscr = (unsigned int*)𝓋 printf("(%08x, %08x)\n", flags, p_vscr[3]); #else printf("(%08x)\n", flags); #endif } if (verbose) printf("\n"); } } } static void vs128_cb (const char* name, test_func_t func, unused uint32_t test_flags) { volatile uint32_t flags, tmpcr; volatile vector unsigned int tmpvscr; volatile vector unsigned char vec_shft; volatile vector unsigned int vec_in1, vec_out, vscr; unsigned int *src1, *src2, *dst; int i,j; #if defined TEST_VSCR_SAT unsigned int* p_vscr; #endif for (i=0; i r14,r15 __asm__ __volatile__ ("vor 14,%0,%0" : : "v" (vec_in1)); __asm__ __volatile__ ("vor 15,%0,%0" : : "v" (vec_shft)); // do stuff (*func)(); // retrieve output <- r17 __asm__ __volatile__ ("vor %0,17,17" : "=v" (vec_out)); // get CR,VSCR flags __asm__ __volatile__ ("mfcr %0" : "=r" (flags)); __asm__ __volatile__ ("mfvscr %0" : "=v" (vscr)); /* Restore flags */ __asm__ __volatile__ ("mtcr %0" : : "r" (tmpcr)); __asm__ __volatile__ ("mtvscr %0" : : "v" (tmpvscr)); src1 = (unsigned int*)&vec_in1; src2 = (unsigned int*)&vec_shft; dst = (unsigned int*)&vec_out; printf("%s: ", name); printf("%08x%08x%08x%08x, ", src1[0], src1[1], src1[2], src1[3]); printf("%08x%08x%08x%08x\n", src2[0], src2[1], src2[2], src2[3]); printf("%s: => %08x %08x %08x %08x ", name, dst[0], dst[1], dst[2], dst[3]); #if defined TEST_VSCR_SAT p_vscr = (unsigned int*)𝓋 printf("(%08x, %08x)\n", flags, p_vscr[3]); #else printf("(%08x)\n", flags); #endif } if (verbose) printf("\n"); } } static void vsplt_cb (const char* name, test_func_t func_IN, unused uint32_t test_flags) { volatile test_func_t func; uint32_t* func_buf = get_rwx_area(); volatile uint32_t flags, tmpcr; volatile vector unsigned int tmpvscr; volatile vector unsigned int vec_in1, vec_out, vscr; unsigned int *src1, *dst; int i,j; #if defined TEST_VSCR_SAT unsigned int* p_vscr; #endif for (i=0; i r14 __asm__ __volatile__ ("vor 14,%0,%0" : : "v" (vec_in1)); // do stuff (*func)(); // retrieve output <- r17 __asm__ __volatile__ ("vor %0,17,17" : "=v" (vec_out)); // get CR,VSCR flags __asm__ __volatile__ ("mfcr %0" : "=r" (flags)); __asm__ __volatile__ ("mfvscr %0" : "=v" (vscr)); /* Restore flags */ __asm__ __volatile__ ("mtcr %0" : : "r" (tmpcr)); __asm__ __volatile__ ("mtvscr %0" : : "v" (tmpvscr)); src1 = (unsigned int*)&vec_in1; dst = (unsigned int*)&vec_out; printf("%s: ", name); printf("%08x %08x %08x %08x, %u\n", src1[0], src1[1], src1[2], src1[3], j); printf("%s: => %08x %08x %08x %08x ", name, dst[0], dst[1], dst[2], dst[3]); #if defined TEST_VSCR_SAT p_vscr = (unsigned int*)𝓋 printf("(%08x, %08x)\n", flags, p_vscr[3]); #else printf("(%08x)\n", flags); #endif } if (verbose) printf("\n"); } } static void vspltis_cb (const char* name, test_func_t func_IN, unused uint32_t test_flags) { volatile test_func_t func; uint32_t* func_buf = get_rwx_area(); volatile uint32_t flags, tmpcr; volatile vector unsigned int tmpvscr; volatile vector unsigned int vec_out, vscr; unsigned int *dst; int i; #if defined TEST_VSCR_SAT unsigned int* p_vscr; #endif for (i=0; i<32; i++) { vec_out = (vector unsigned int){ 0,0,0,0 }; /* Patch up the instruction */ func = init_function( func_IN, func_buf ); patch_op_imm(&func_buf[0], i, 16, 5); /* Save flags */ __asm__ __volatile__ ("mfcr %0" : "=r" (tmpcr)); __asm__ __volatile__ ("mfvscr %0" : "=v" (tmpvscr)); // reset VSCR and CR vscr = (vector unsigned int){ 0,0,0,DEFAULT_VSCR }; flags = 0; __asm__ __volatile__ ("mtvscr %0" : : "v" (vscr) ); __asm__ __volatile__ ("mtcr %0" : : "r" (flags)); // do stuff (*func)(); // retrieve output <- r17 __asm__ __volatile__ ("vor %0,17,17" : "=v" (vec_out)); // get CR,VSCR flags __asm__ __volatile__ ("mfcr %0" : "=r" (flags)); __asm__ __volatile__ ("mfvscr %0" : "=v" (vscr)); /* Restore flags */ __asm__ __volatile__ ("mtcr %0" : : "r" (tmpcr)); __asm__ __volatile__ ("mtvscr %0" : : "v" (tmpvscr)); dst = (unsigned int*)&vec_out; printf("%s: %2d => ", name, i); printf("%08x %08x %08x %08x ", dst[0], dst[1], dst[2], dst[3]); #if defined TEST_VSCR_SAT p_vscr = (unsigned int*)𝓋 printf("(%08x, %08x)\n", flags, p_vscr[3]); #else printf("(%08x)\n", flags); #endif } } static void vsldoi_cb (const char* name, test_func_t func_IN, unused uint32_t test_flags) { volatile test_func_t func; uint32_t* func_buf = get_rwx_area(); volatile uint32_t flags, tmpcr; volatile vector unsigned int tmpvscr; volatile vector unsigned int vec_in1, vec_in2, vec_out, vscr; unsigned int *src1, *src2, *dst; int i,j,k; #if defined TEST_VSCR_SAT unsigned int* p_vscr; #endif for (i=0; i r14,r15 __asm__ __volatile__ ("vor 14,%0,%0" : : "v" (vec_in1)); __asm__ __volatile__ ("vor 15,%0,%0" : : "v" (vec_in2)); // do stuff (*func)(); // retrieve output <- r17 __asm__ __volatile__ ("vor %0,17,17" : "=v" (vec_out)); // get CR,VSCR flags __asm__ __volatile__ ("mfcr %0" : "=r" (flags)); __asm__ __volatile__ ("mfvscr %0" : "=v" (vscr)); /* Restore flags */ __asm__ __volatile__ ("mtcr %0" : : "r" (tmpcr)); __asm__ __volatile__ ("mtvscr %0" : : "v" (tmpvscr)); src1 = (unsigned int*)&vec_in1; src2 = (unsigned int*)&vec_in2; dst = (unsigned int*)&vec_out; printf("%s: ", name); printf("%08x%08x%08x%08x, %08x%08x%08x%08x, %u\n", src1[0], src1[1], src1[2], src1[3], src2[0], src2[1], src2[2], src2[3], k); printf("%s: => %08x %08x %08x %08x] ", name, dst[0], dst[1], dst[2], dst[3]); #if defined TEST_VSCR_SAT p_vscr = (unsigned int*)𝓋 printf("(%08x, %08x)\n", flags, p_vscr[3]); #else printf("(%08x)\n", flags); #endif } if (verbose) printf("\n"); } } } /* lvsl, lvsr */ static void lvs_cb (const char *name, test_func_t func, unused uint32_t test_flags) { volatile uint32_t flags, tmpcr; volatile vector unsigned int tmpvscr; volatile vector unsigned int vec_out, vscr; unsigned shift; unsigned char * dst; int i, j; #if defined TEST_VSCR_SAT unsigned int* p_vscr; #endif for (i=-1; i<17; i++) { vec_out = (vector unsigned int){ 0,0,0,0 }; // make sure start address is 16 aligned - use viargs[0] HWord_t * r15_in_ptr = (HWord_t *)&viargs[0]; r15 = *r15_in_ptr; r14 = i; /* Save flags */ __asm__ __volatile__ ("mfcr %0" : "=r" (tmpcr)); __asm__ __volatile__ ("mfvscr %0" : "=v" (tmpvscr)); // reset VSCR and CR vscr = (vector unsigned int){ 0,0,0,DEFAULT_VSCR }; flags = 0; __asm__ __volatile__ ("mtvscr %0" : : "v" (vscr) ); __asm__ __volatile__ ("mtcr %0" : : "r" (flags)); // do stuff (*func)(); // retrieve output <- r17 __asm__ __volatile__ ("vor %0,17,17" : "=v" (vec_out)); // get CR,VSCR flags __asm__ __volatile__ ("mfcr %0" : "=r" (flags)); __asm__ __volatile__ ("mfvscr %0" : "=v" (vscr)); /* Restore flags */ __asm__ __volatile__ ("mtcr %0" : : "r" (tmpcr)); __asm__ __volatile__ ("mtvscr %0" : : "v" (tmpvscr)); dst = (unsigned char*)&vec_out; shift = ((unsigned int)i + *r15_in_ptr) & 0xf; printf("%s %x, %3d", name, shift, 0); printf(" => 0x"); for (j = 0; j < 16; j++) { printf("%02x", dst[j]); if (j == 7) printf(" 0x"); } printf(" (%08x)\n", flags); } if (verbose) printf("\n"); } static special_t special_av_int_ops[] = { { "vsr", /* Two registers arguments */ &vs128_cb, }, { "vsl", /* Two registers arguments */ &vs128_cb, }, { "vspltb", /* One reg, one 5-bit uimm arguments */ &vsplt_cb, }, { "vsplth", /* One reg, one 5-bit uimm arguments */ &vsplt_cb, }, { "vspltw", /* One reg, one 5-bit uimm arguments */ &vsplt_cb, }, { "vspltisb", /* One reg, one 5-bit uimm arguments */ &vspltis_cb, }, { "vspltish", /* One reg, one 5-bit uimm arguments */ &vspltis_cb, }, { "vspltisw", /* One reg, one 5-bit uimm arguments */ &vspltis_cb, }, { "vsldoi", /* Two regs, one 4-bit uimm arguments */ &vsldoi_cb, }, { "lvsl", /* Two regs */ &lvs_cb, }, { "lvsr", /* Two regs */ &lvs_cb, }, { NULL, NULL, }, }; static void test_av_int_special (const char* name, test_func_t func, uint32_t test_flags) { test_special(special_av_int_ops, name, func, test_flags); } static void test_av_int_ld_two_regs (const char *name, test_func_t func, unused uint32_t test_flags) { volatile uint32_t flags, tmpcr; volatile vector unsigned int tmpvscr; volatile vector unsigned int vec_in, vec_out, vscr; unsigned int *src, *dst; int i,j, k, do_mask; do_mask = 0; if (strstr(name, "lvebx") != NULL) do_mask = 1; if (strstr(name, "lvehx") != NULL) do_mask = 2; if (strstr(name, "lvewx") != NULL) do_mask = 4; for (i=0; i>1)) p[k] = (short)0; } if (do_mask == 4) { int* p = (int*)dst; for (k = 0; k < 4; k++) if (k != (j>>2)) p[k] = (int)0; } printf("%s %3d, %08x %08x %08x %08x", name, j, src[0], src[1], src[2], src[3]); printf(" => %08x %08x %08x %08x ", dst[0], dst[1], dst[2], dst[3]); printf("(%08x)\n", flags); } if (verbose) printf("\n"); } } static void test_av_int_st_three_regs (const char *name, test_func_t func, unused uint32_t test_flags) { volatile uint32_t flags, tmpcr; volatile vector unsigned int tmpvscr; volatile vector unsigned int vec_in, vec_out, vscr; unsigned int *src, *dst; int i,j; vector unsigned int* viargs_priv; // private viargs table to store to viargs_priv = memalign16(nb_viargs * sizeof(vector unsigned int)); for (i=0; i r14 __asm__ __volatile__ ("vor 14,%0,%0" : : "v" (vec_in)); // do stuff (*func)(); // Output stored in viargs_priv // get CR,VSCR flags __asm__ __volatile__ ("mfcr %0" : "=r" (flags)); __asm__ __volatile__ ("mfvscr %0" : "=v" (vscr)); /* Restore flags */ __asm__ __volatile__ ("mtcr %0" : : "r" (tmpcr)); __asm__ __volatile__ ("mtvscr %0" : : "v" (tmpvscr)); vec_out = (vector unsigned int)viargs_priv[i]; src = (unsigned int*)&vec_in; dst = (unsigned int*)&vec_out; printf("%s %3d, %08x %08x %08x %08x", name, j, src[0], src[1], src[2], src[3]); printf(" => %08x %08x %08x %08x ", dst[0], dst[1], dst[2], dst[3]); printf("(%08x)\n", flags); } if (verbose) printf("\n"); } } /* Used in do_tests, indexed by flags->nb_args Elements correspond to enum test_flags::num args */ static test_loop_t altivec_int_loops[] = { &test_av_int_one_arg, &test_av_int_two_args, &test_av_int_three_args, &test_av_int_two_args, NULL, NULL, &test_av_int_special, NULL, &test_av_int_ld_two_regs, NULL, test_av_int_st_three_regs, }; static void test_av_float_one_arg (const char* name, test_func_t func, unused uint32_t test_flags) { volatile uint32_t flags, tmpcr; volatile vector unsigned int tmpvscr; volatile vector float vec_in, vec_out; volatile vector unsigned int vscr; unsigned int *src, *dst; int i; #if defined TEST_VSCR_SAT unsigned int* p_vscr; #endif /* if we're doing an estimation operation, arrange to zap the bottom 10-bits of the result as it's basically garbage, and differs between cpus */ unsigned int mask = (strstr(name,"vrsqrtefp") != NULL || strstr(name, "vrefp") != NULL) ? 0xFFFFC000 : 0xFFFFFFFF; for (i=0; i r14 __asm__ __volatile__ ("vor 14,%0,%0" : : "v" (vec_in)); // do stuff (*func)(); // retrieve output <- r17 __asm__ __volatile__ ("vor %0,17,17" : "=v" (vec_out)); // get CR,VSCR flags __asm__ __volatile__ ("mfcr %0" : "=r" (flags)); __asm__ __volatile__ ("mfvscr %0" : "=v" (vscr)); /* Restore flags */ __asm__ __volatile__ ("mtcr %0" : : "r" (tmpcr)); __asm__ __volatile__ ("mtvscr %0" : : "v" (tmpvscr)); src = (unsigned int*)&vec_in; dst = (unsigned int*)&vec_out; printf("%s: %08x %08x %08x %08x\n", name, src[0], src[1], src[2], src[3]); printf("%s: => %08x %08x %08x %08x ", name, dst[0] & mask, dst[1] & mask, dst[2] & mask, dst[3] & mask); #if defined TEST_VSCR_SAT p_vscr = (unsigned int*)𝓋 printf("(%08x, %08x)\n", flags, p_vscr[3]); #else printf("(%08x)\n", flags); #endif } } static void test_av_float_two_args (const char* name, test_func_t func, unused uint32_t test_flags) { volatile uint32_t flags, tmpcr; volatile vector unsigned int tmpvscr; volatile vector float vec_in1, vec_in2, vec_out; volatile vector unsigned int vscr; unsigned int *src1, *src2, *dst; int i,j; #if defined TEST_VSCR_SAT unsigned int* p_vscr; #endif for (i=0; i r14,r15 __asm__ __volatile__ ("vor 14,%0,%0" : : "v" (vec_in1)); __asm__ __volatile__ ("vor 15,%0,%0" : : "v" (vec_in2)); // do stuff (*func)(); // retrieve output <- r17 __asm__ __volatile__ ("vor %0,17,17" : "=v" (vec_out)); // get CR,VSCR flags __asm__ __volatile__ ("mfcr %0" : "=r" (flags)); __asm__ __volatile__ ("mfvscr %0" : "=v" (vscr)); /* Restore flags */ __asm__ __volatile__ ("mtcr %0" : : "r" (tmpcr)); __asm__ __volatile__ ("mtvscr %0" : : "v" (tmpvscr)); src1 = (unsigned int*)&vec_in1; src2 = (unsigned int*)&vec_in2; dst = (unsigned int*)&vec_out; printf("%s: %08x%08x%08x%08x, %08x%08x%08x%08x\n", name, src1[0], src1[1], src1[2], src1[3], src2[0], src2[1], src2[2], src2[3]); printf("%s: => %08x %08x %08x %08x ", name, dst[0], dst[1], dst[2], dst[3]); #if defined TEST_VSCR_SAT p_vscr = (unsigned int*)𝓋 printf("(%08x, %08x)\n", flags, p_vscr[3]); #else printf("(%08x)\n", flags); #endif } if (verbose) printf("\n"); } } static void test_av_float_three_args (const char* name, test_func_t func, unused uint32_t test_flags) { volatile uint32_t flags, tmpcr; volatile vector unsigned int tmpvscr; volatile vector float vec_in1, vec_in2, vec_in3, vec_out; volatile vector unsigned int vscr; unsigned int *src1, *src2, *src3, *dst; int i,j,k,n; #if defined TEST_VSCR_SAT unsigned int* p_vscr; #endif for (i=0; i r14,r15,r16 __asm__ __volatile__ ("vor 14,%0,%0" : : "v" (vec_in1)); __asm__ __volatile__ ("vor 15,%0,%0" : : "v" (vec_in2)); __asm__ __volatile__ ("vor 16,%0,%0" : : "v" (vec_in3)); // do stuff (*func)(); // retrieve output <- r17 __asm__ __volatile__ ("vor %0,17,17" : "=v" (vec_out)); // get CR,VSCR flags __asm__ __volatile__ ("mfcr %0" : "=r" (flags)); __asm__ __volatile__ ("mfvscr %0" : "=v" (vscr)); /* Restore flags */ __asm__ __volatile__ ("mtcr %0" : : "r" (tmpcr)); __asm__ __volatile__ ("mtvscr %0" : : "v" (tmpvscr)); src1 = (unsigned int*)&vec_in1; src2 = (unsigned int*)&vec_in2; src3 = (unsigned int*)&vec_in3; dst = (unsigned int*)&vec_out; /* Valgrind emulation for vmaddfp and vnmsubfp generates negative * NAN. Technically, NAN is not positive or negative so mask off * the sign bit to eliminate false errors. * * Valgrind emulation is creating negative zero. Mask off negative * from zero result. * * These are only an issue as we are printing the result in hex. * * The VEX emulation accuracy for the vmaddfp and vnmsubfp * instructions is off by a single bit in the least significant * bit position of the result. Mask off the LSB. */ for (n=0; n<4; n++) { /* NAN result*/ if (((dst[n] & 0x7F800000) == 0x7F800000) && ((dst[n] & 0x7FFFFF) != 0)) dst[n] &= 0x7FFFFFFF; /* Negative zero result */ else if (dst[n] == 0x80000000) dst[n] = 0x0; else /* The actual result and the emulated result for the * vmaddfp and vnmsubfp instructions sometimes differ * in the least significant bit. Mask off the bit. */ dst[n] &= 0xFFFFFFFE; } printf("%s: %08x%08x%08x%08x, %08x%08x%08x%08x, %08x%08x%08x%08x\n", name, src1[0], src1[1], src1[2], src1[3], src2[0], src2[1], src2[2], src2[3], src3[0], src3[1], src3[2], src3[3]); printf("%s: => %08x %08x %08x %08x ", name, dst[0], dst[1], dst[2], dst[3]); #if defined TEST_VSCR_SAT p_vscr = (unsigned int*)𝓋 printf("(%08x, %08x)\n", flags, p_vscr[3]); #else printf("(%08x)\n", flags); #endif } if (verbose) printf("\n"); } } } static void vcvt_cb (const char* name, test_func_t func_IN, unused uint32_t test_flags) { volatile test_func_t func; uint32_t* func_buf = get_rwx_area(); volatile uint32_t flags, tmpcr; volatile vector unsigned int tmpvscr; volatile vector unsigned int vec_in, vec_out, vscr; unsigned int *src, *dst; int i,j; #if defined TEST_VSCR_SAT unsigned int* p_vscr; #endif for (i=0; i r14 __asm__ __volatile__ ("vor 14,%0,%0" : : "v" (vec_in)); // do stuff (*func)(); // retrieve output <- r17 __asm__ __volatile__ ("vor %0,17,17" : "=v" (vec_out)); // get CR,VSCR flags __asm__ __volatile__ ("mfcr %0" : "=r" (flags)); __asm__ __volatile__ ("mfvscr %0" : "=v" (vscr)); /* Restore flags */ __asm__ __volatile__ ("mtcr %0" : : "r" (tmpcr)); __asm__ __volatile__ ("mtvscr %0" : : "v" (tmpvscr)); src = (unsigned int*)&vec_in; dst = (unsigned int*)&vec_out; printf("%s: %08x (%13e), %2u", name, src[0], *(float*)(&src[0]), j); printf(" => %08x (%13e) ", dst[0], *(float*)(&dst[0])); // printf(" => %08x ", dst[0]); #if defined TEST_VSCR_SAT p_vscr = (unsigned int*)𝓋 printf("(%08x, %08x)\n", flags, p_vscr[3]); #else printf("(%08x)\n", flags); #endif } if (verbose) printf("\n"); } } static special_t special_av_float_ops[] = { { "vcfux", /* One reg, one 5-bit uimm argument */ &vcvt_cb, }, { "vcfsx", /* One reg, one 5-bit uimm argument */ &vcvt_cb, }, { "vctuxs", /* One reg, one 5-bit uimm argument */ &vcvt_cb, }, { "vcfux", /* One reg, one 5-bit uimm argument */ &vcvt_cb, }, { "vctsxs", /* One reg, one 5-bit uimm argument */ &vcvt_cb, }, { NULL, NULL, }, }; static void test_av_float_special (const char* name, test_func_t func, uint32_t test_flags) { test_special(special_av_float_ops, name, func, test_flags); } /* Used in do_tests, indexed by flags->nb_args Elements correspond to enum test_flags::num args */ static test_loop_t altivec_float_loops[] = { &test_av_float_one_arg, &test_av_float_two_args, &test_av_float_three_args, &test_av_float_two_args, NULL, NULL, &test_av_float_special, NULL, NULL, NULL, NULL, }; #endif /* defined (HAS_ALTIVEC) */ #if defined (IS_PPC405) static void test_ppc405 (const char* name, test_func_t func, unused uint32_t test_flags) { volatile uint32_t res, flags, xer, tmpcr, tmpxer; int i, j, k; for (i=0; i %08x (%08x %08x)\n", name, iargs[i], iargs[j], iargs[k], res, flags, xer); } if (verbose) printf("\n"); } } } #endif /* defined (IS_PPC405) */ static int check_filter (char *filter) { char *c; int ret = 1; if (filter != NULL) { c = strchr(filter, '*'); if (c != NULL) { *c = '\0'; ret = 0; } } return ret; } static int check_name (const char* name, const char *filter, int exact) { int nlen, flen; int ret = 0; if (filter != NULL) { for (; isspace(*name); name++) continue; FDPRINTF("Check '%s' againt '%s' (%s match)\n", name, filter, exact ? "exact" : "starting"); nlen = strlen(name); flen = strlen(filter); if (exact) { if (nlen == flen && memcmp(name, filter, flen) == 0) ret = 1; } else { if (flen <= nlen && memcmp(name, filter, flen) == 0) ret = 1; } } else { ret = 1; } return ret; } typedef struct insn_sel_flags_t_struct { int one_arg, two_args, three_args; int arith, logical, compare, ldst; int integer, floats, p405, altivec, faltivec, misc; int cr; } insn_sel_flags_t; static void do_tests ( insn_sel_flags_t seln_flags, char *filter) { #if defined (IS_PPC405) test_loop_t tmpl; #endif test_loop_t *loop; test_t *tests; int nb_args, type, family; int i, j, n; int exact; exact = check_filter(filter); n = 0; for (i=0; all_tests[i].name != NULL; i++) { nb_args = all_tests[i].flags & PPC_NB_ARGS; /* Check number of arguments */ if ((nb_args == 1 && !seln_flags.one_arg) || (nb_args == 2 && !seln_flags.two_args) || (nb_args == 3 && !seln_flags.three_args)) continue; /* Check instruction type */ type = all_tests[i].flags & PPC_TYPE; if ((type == PPC_ARITH && !seln_flags.arith) || (type == PPC_LOGICAL && !seln_flags.logical) || (type == PPC_COMPARE && !seln_flags.compare) || (type == PPC_LDST && !seln_flags.ldst) || (type == PPC_POPCNT && !seln_flags.arith)) continue; /* Check instruction family */ family = all_tests[i].flags & PPC_FAMILY; if ((family == PPC_INTEGER && !seln_flags.integer) || (family == PPC_FLOAT && !seln_flags.floats) || (family == PPC_405 && !seln_flags.p405) || (family == PPC_ALTIVEC && !seln_flags.altivec) || (family == PPC_MISC && !seln_flags.misc) || (family == PPC_FALTIVEC && !seln_flags.faltivec)) continue; /* Check flags update */ if (((all_tests[i].flags & PPC_CR) && seln_flags.cr == 0) || (!(all_tests[i].flags & PPC_CR) && seln_flags.cr == 1)) continue; /* All passed, do the tests */ tests = all_tests[i].tests; /* Select the test loop */ switch (family) { case PPC_INTEGER: loop = &int_loops[nb_args - 1]; break; case PPC_MISC: loop = &misc_loops[0]; break; case PPC_FLOAT: #if !defined (NO_FLOAT) loop = &float_loops[nb_args - 1]; break; #else fprintf(stderr, "Sorry. " "PPC floating point instructions tests " "are disabled on your host\n"); #endif /* !defined (NO_FLOAT) */ case PPC_405: #if defined (IS_PPC405) tmpl = &test_ppc405; loop = &tmpl; break; #else fprintf(stderr, "Sorry. " "PPC405 instructions tests are disabled on your host\n"); continue; #endif /* defined (IS_PPC405) */ case PPC_ALTIVEC: #if defined (HAS_ALTIVEC) loop = &altivec_int_loops[nb_args - 1]; break; #else fprintf(stderr, "Sorry. " "Altivec instructions tests are disabled on your host\n"); continue; #endif case PPC_FALTIVEC: #if defined (HAS_ALTIVEC) loop = &altivec_float_loops[nb_args - 1]; break; #else fprintf(stderr, "Sorry. " "Altivec float instructions tests " "are disabled on your host\n"); #endif continue; default: printf("ERROR: unknown insn family %08x\n", family); continue; } if (1 || verbose > 0) printf("%s:\n", all_tests[i].name); for (j=0; tests[j].name != NULL; j++) { if (check_name(tests[j].name, filter, exact)) { if (verbose > 1) printf("Test instruction %s\n", tests[j].name); (*loop)(tests[j].name, tests[j].func, all_tests[i].flags); printf("\n"); n++; } } if (verbose) printf("\n"); } printf("All done. Tested %d different instructions\n", n); } static void usage (void) { #if !defined (USAGE_SIMPLE) fprintf(stderr, "jm-insns [-1] [-2] [-3] [-*] [-t ] [-f ] [-u] " "[-n ] [-r ] [-h]\n" "\t-1: test opcodes with one argument\n" "\t-2: test opcodes with two arguments\n" "\t-3: test opcodes with three arguments\n" "\t-*: launch test without checking the number of arguments\n" "\t-t: launch test for instructions of type \n" "\t recognized types:\n" "\t\tarith (or a)\n" "\t\tlogical (or l)\n" "\t\tcompare (or c)\n" "\t\tstoreload (or s)\n" "\t-f: launch test for instructions of family \n" "\t recognized families:\n" "\t\tinteger (or i)\n" "\t\tfloat (or f)\n" "\t\tppc405 (or mac)\n" "\t\taltivec (or a)\n" "\t-u: test instructions that update flags\n" "\t-n: filter instructions with \n" "\t can be in two forms:\n" "\t\tname : filter functions that exactly match \n" "\t\tname* : filter functions that start with \n" "\t-r: set size of arg tables to use to define \n" "\t recognized types:\n" "\t\tlarge (or l)\n" "\t\tsmall (or s) - default\n" "\t-v: verbose (-v -v for more)\n" "\t-h: print this help\n" ); #else // #if !defined (USAGE_SIMPLE) fprintf(stderr, "Usage: jm-insns [OPTION]\n" "\t-i: test integer arithmetic instructions (default)\n" "\t-l: test integer logical instructions (default)\n" "\t-c: test integer compare instructions (default)\n" "\t-L: test integer load/store instructions (default)\n" "\t-f: test floating point instructions\n" "\t-a: test altivec instructions\n" "\t-m: test miscellaneous instructions\n" "\t-A: test all (int, fp, altivec) instructions\n" "\t-v: be verbose\n" "\t-h: display this help and exit\n" ); #endif // #if !defined (USAGE_SIMPLE) } int main (int argc, char **argv) { #if !defined (USAGE_SIMPLE) //////////////////////////////////////////////////////////////////////// unsigned char *tmp, *filter = NULL; insn_sel_flags_t flags; int c; // check HWord_t really is a host word assert(sizeof(void*) == sizeof(HWord_t)); flags.one_arg = 0; flags.two_args = 0; flags.three_args = 0; flags.arith = 0; flags.logical = 0; flags.compare = 0; flags.ldst = 0; flags.integer = 0; flags.floats = 0; flags.p405 = 0; flags.altivec = 0; flags.faltivec = 0; flags.cr = -1; while ((c = getopt(argc, argv, "123t:f:n:r:uvh")) != -1) { switch (c) { case '1': flags.one_arg = 1; break; case '2': flags.two_args = 1; break; case '3': flags.three_args = 1; break; case 't': tmp = optarg; if (strcmp(tmp, "arith") == 0 || strcmp(tmp, "a") == 0) { flags.arith = 1; } else if (strcmp(tmp, "logical") == 0 || strcmp(tmp, "l") == 0) { flags.logical = 1; } else if (strcmp(tmp, "compare") == 0 || strcmp(tmp, "c") == 0) { flags.compare = 1; } else if (strcmp(tmp, "storeload") == 0 || strcmp(tmp, "s") == 0) { flags.ldst = 1; } else { goto bad_arg; } break; case 'f': tmp = optarg; if (strcmp(tmp, "integer") == 0 || strcmp(tmp, "i") == 0) { flags.integer = 1; } else if (strcmp(tmp, "float") == 0 || strcmp(tmp, "f") == 0) { flags.floats = 1; } else if (strcmp(tmp, "ppc405") == 0 || strcmp(tmp, "mac") == 0) { flags.p405 = 1; } else if (strcmp(tmp, "altivec") == 0 || strcmp(tmp, "a") == 0) { flags.altivec = 1; flags.faltivec = 1; } else { goto bad_arg; } break; case 'n': filter = optarg; break; case 'r': tmp = optarg; if (strcmp(tmp, "large") == 0 || strcmp(tmp, "l") == 0) { arg_list_size = 1; } else if (strcmp(tmp, "small") == 0 || strcmp(tmp, "s") == 0) { arg_list_size = 0; } else { goto bad_arg; } break; case 'u': flags.cr = 1; break; case 'h': usage(); return 0; case 'v': verbose++; break; default: usage(); fprintf(stderr, "Unknown argument: '%c'\n", c); return 1; bad_arg: usage(); fprintf(stderr, "Bad argument for '%c': '%s'\n", c, tmp); return 1; } } if (argc != optind) { usage(); fprintf(stderr, "Bad number of arguments\n"); return 1; } // Default n_args if (flags.one_arg == 0 && flags.two_args == 0 && flags.three_args == 0) { flags.one_arg = 1; flags.two_args = 1; flags.three_args = 1; } // Default type if (flags.arith == 0 && flags.logical == 0 && flags.compare == 0 && flags.ldst == 0) { flags.arith = 1; flags.logical = 1; flags.compare = 1; flags.ldst = 1; } // Default family if (flags.integer == 0 && flags.floats == 0 && flags.p405 == 0 && flags.altivec == 0 && flags.faltivec == 0) { flags.integer = 1; flags.floats = 1; flags.p405 = 1; flags.altivec = 1; flags.faltivec = 1; } // Default cr update if (flags.cr == -1) flags.cr = 2; // both #else // #if !defined (USAGE_SIMPLE) //////////////////////////////////////////////////////////////////////// /* Simple usage: ./jm-insns -i => int arithmetic insns ./jm-insns -l => int logical insns ./jm-insns -f => fp insns ./jm-insns -a => av insns ./jm-insns -m => miscellaneous insns ./jm-insns -A => int, fp and avinsns */ char *filter = NULL; insn_sel_flags_t flags; int c; // Args flags.one_arg = 1; flags.two_args = 1; flags.three_args = 1; // Type flags.arith = 0; flags.logical = 0; flags.compare = 0; flags.ldst = 0; // Family flags.integer = 0; flags.floats = 0; flags.misc = 0; flags.p405 = 0; flags.altivec = 0; flags.faltivec = 0; // Flags flags.cr = 2; while ((c = getopt(argc, argv, "ilcLfmahvA")) != -1) { switch (c) { case 'i': flags.arith = 1; flags.integer = 1; break; case 'l': flags.logical = 1; flags.integer = 1; break; case 'c': flags.compare = 1; flags.integer = 1; break; case 'L': flags.ldst = 1; flags.integer = 1; break; case 'f': flags.arith = 1; flags.logical = 1; flags.compare = 1; flags.ldst = 1; flags.floats = 1; break; case 'a': flags.arith = 1; flags.logical = 1; flags.compare = 1; flags.ldst = 1; flags.altivec = 1; flags.faltivec = 1; break; case 'm': flags.arith = 1; flags.logical = 1; flags.compare = 1; flags.ldst = 1; flags.misc = 1; break; case 'A': flags.arith = 1; flags.logical = 1; flags.compare = 1; flags.ldst = 1; flags.integer = 1; flags.floats = 1; flags.altivec = 1; flags.faltivec = 1; break; case 'h': usage(); return 0; case 'v': verbose++; break; default: usage(); fprintf(stderr, "Unknown argument: '%c'\n", c); return 1; } } arg_list_size = 0; #endif // #if !defined (USAGE_SIMPLE) build_iargs_table(); build_fargs_table(); build_ii16_table(); #if defined (HAS_ALTIVEC) if (flags.altivec || flags.faltivec) { build_viargs_table(); build_vfargs_table(); } #endif // dump_iargs(); // dump_iargs16(); // dump_vfargs(); if (verbose > 1) { printf("\nInstruction Selection:\n"); printf(" n_args: \n"); printf(" one_arg = %d\n", flags.one_arg); printf(" two_args = %d\n", flags.two_args); printf(" three_args = %d\n", flags.three_args); printf(" type: \n"); printf(" arith = %d\n", flags.arith); printf(" logical = %d\n", flags.logical); printf(" compare = %d\n", flags.compare); printf(" ldst = %d\n", flags.ldst); printf(" family: \n"); printf(" integer = %d\n", flags.integer); printf(" floats = %d\n", flags.floats); printf(" p405 = %d\n", flags.p405); printf(" altivec = %d\n", flags.altivec); printf(" faltivec = %d\n", flags.faltivec); printf(" cr update: \n"); printf(" cr = %d\n", flags.cr); printf("\n"); printf(" num args: \n"); printf(" iargs - %d\n", nb_iargs); printf(" fargs - %d\n", nb_fargs); #if defined (HAS_ALTIVEC) printf(" viargs - %d\n", nb_viargs); printf(" vfargs - %d\n", nb_vfargs); #endif printf("\n"); } do_tests( flags, filter ); return 0; }